CN107967050A - Task processing method and device - Google Patents

Abstract

Present invention is disclosed a kind of task processing method and device, the described method comprises the following steps：Main Processor Unit performs high load capacity task；At the end of high load capacity task, Main Processor Unit notice performs underload task from processing unit, and automatically into low-power consumption mode.A kind of task processing method that the embodiment of the present invention is provided, by configuring two processing units of principal and subordinate, high load capacity task is performed by Main Processor Unit, to ensure the fluency of system, at the end of high load capacity task, Main Processor Unit is then notified from processing unit execution underload task, and automatically into low-power consumption mode, to reduce power consumption.So as to not only ensure that the high-performance of intelligent watch, but also the power consumption of intelligent watch is reduced, stand-by time is extended, it is achieved thereby that the balance of performance and power consumption, has taken into account high-performance and the low-power consumption of intelligent watch, improved user experience.

Description

Task processing method and device

Technical field

The present invention relates to electronic technology field, especially relates to a kind of task processing method and device.

Background technology

With the development of wireless communication technique, intelligent wearable device is gradually favored be subject to people, wherein, intelligent watch hair Exhibition is the most ripe.Intelligent watch can not only instruction time, also have the function of navigation, calibration, remind etc., or even also support and its He interconnects smart machine, such as is interconnected with smart mobile phone, and supports the partial function of smart mobile phone, such as wechat prompting message, Call reminding, check short message, check mail, checking the functions such as schedule, it can be seen that, the application scenarios of intelligent watch are very wide It is wealthy.

In order to extend stand-by time, the processing unit of intelligent watch generally use low-power consumption, but the processing unit of low-power consumption Performance is weaker, and when performing high load capacity task, the fluency of system can be affected, so as to seriously reduce the property of intelligent watch Energy.If selecting high performance processing unit, and power consumption can be greatly increased, thus greatly shorten intelligent watch it is standby when Between.

Therefore, the performance and power consumption of intelligent watch how are balanced, takes into account high-performance and low-power consumption, is current urgent need to resolve Technical problem.

The content of the invention

The main object of the present invention is provides a kind of task processing method and device, it is intended to balance intelligent watch performance and Power consumption.

To achieve these objectives, the embodiment of the present invention proposes a kind of task processing method, comprises the following steps：

Main Processor Unit performs high load capacity task；

At the end of the high load capacity task, the Main Processor Unit notice performs underload task from processing unit, and Automatically into low-power consumption mode.

Alternatively, further included while the Main Processor Unit performs the step of high load capacity task：The Main Processor Unit Notice is described to enter low-power consumption mode from processing unit.

Alternatively, the step of entering low-power consumption mode from processing unit described in the Main Processor Unit notice includes：

The Main Processor Unit sends low-power consumption mode instruction to described from processing unit；

It is described to receive the low-power consumption mode instruction from processing unit, short circuit will be exported according to low-power consumption mode instruction To input, into low-power consumption mode.

Alternatively, the step of Main Processor Unit notice performs underload task from processing unit includes：

The Main Processor Unit sends operating mode instruction to described from processing unit；

It is described to receive the operating mode instruction from processing unit, operating mode is entered according to the operating mode instruction, Perform underload task.

Alternatively, the Main Processor Unit further includes before performing the step of high load capacity task：

The Main Processor Unit receives assignment instructions；

The Main Processor Unit enters operating mode according to the assignment instructions, and the judging to intend performing of the task is appointed for high load capacity Business or underload task；

When the intending performing of the task is high load capacity task, into next step：Main Processor Unit performs high load capacity task；

When the intending performing of the task is underload task, the Main Processor Unit notice is described from described in processing unit execution Underload task.

Alternatively, while performing the step of the underload task from processing unit described in the Main Processor Unit notice Further include：The Main Processor Unit enters low-power consumption mode.

Alternatively, the judging to intend performing of the task includes for the step of high load capacity task or underload task：Work as plan When the task of execution is show map, calculating real-time parameter, synchrodata or display communication information, the judging to intend execution of the task is High load capacity task.

Alternatively, the judging to intend performing of the task includes for the step of high load capacity task or underload task：Work as plan When the task of execution is renewal time or updates non real-time parameter, the judging to intend performing of the task is underload task.

Alternatively, the assignment instructions include at least one of key command, communication instruction and phonetic order.

Alternatively, the Main Processor Unit is connected with described from processing unit, described to connect from processing unit and display unit Connect.

The embodiment of the present invention proposes a kind of Task Processing Unit at the same time, and described device is single including Main Processor Unit and from processing Member, the Main Processor Unit include：

First execution module, for performing high load capacity task；

First notification module, at the end of the high load capacity task, notice to be described from processing unit execution underload Task；

First mode handover module is low at the end of the high load capacity task, controlling the Main Processor Unit to enter Power consumption mode.

Alternatively, the Main Processor Unit further includes the second notification module, and second notification module is used for：When described When execution module of being engaged in performs high load capacity task, notice is described to enter low-power consumption mode from processing unit.

Alternatively, it is described to include command reception module and second mode handover module from processing unit；

First notification module is used for：At the end of the high load capacity task, low work(is sent from processing unit to described Consume mode instruction；

Described instruction receiving module is used for：Receive the low-power consumption mode instruction；

The second mode handover module is used for：Instructed according to the low-power consumption mode by the output from processing unit Input is shorted to, so that described enter low-power consumption mode from processing unit.

Alternatively, it is described to include command reception module, second mode handover module and the second execution module from processing unit；

Second notification module is used for：At the end of the high load capacity task, work is sent from processing unit to described Mode instruction；

Described instruction receiving module is used for：Receive the operating mode instruction；

The second mode handover module is used for：Enter work from processing unit according to operating mode instruction control Operation mode；

Second execution module is used for：Underload task is performed in the operational mode.

Alternatively, the Main Processor Unit further includes task receiving module, judgment module and third notice module：

The task receiving module is used for：Receive assignment instructions；

The first mode handover module is additionally operable to：The Main Processor Unit is controlled to enter work according to the assignment instructions Pattern；

The judgment module is used for：The judging to intend performing of the task is high load capacity task or underload task；

First execution module is used for：When the intending performing of the task is high load capacity task, the high load capacity task is performed；

The third notice module is used for：When the intending performing of the task is underload task, notice is described from processing unit Perform the underload task.

Alternatively, the first mode handover module is additionally operable to：When the intending performing of the task is underload task, institute is controlled State Main Processor Unit and enter low-power consumption mode.

Alternatively, the judgment module is used for：When the intending performing of the task is show map, calculates real-time parameter, same to step number According to or display communication information when, judge intend perform task be high load capacity task.

Alternatively, the judgment module is used for：When the intending performing of the task is renewal time or updates non real-time parameter, sentence Fixed the intending performing of the task is underload task.

A kind of task processing method that the embodiment of the present invention is provided, by configuring two processing units of principal and subordinate, passes through master Processing unit performs high load capacity task, and to ensure the fluency of system, at the end of high load capacity task, Main Processor Unit then notifies Underload task is performed from processing unit, and automatically into low-power consumption mode, to reduce power consumption.So as to both ensure that intelligent watch High-performance, and reduce the power consumption of intelligent watch, stand-by time extended, it is achieved thereby that the balance of performance and power consumption, simultaneous High-performance and the low-power consumption of intelligent watch have been cared for, has improved user experience.

Brief description of the drawings

Fig. 1 is the flow chart of one embodiment of task processing method of the present invention；

Fig. 2 is Main Processor Unit in the embodiment of the present invention, the connection diagram from processing unit and display unit；

Fig. 3 is the module diagram of one embodiment of Task Processing Unit of the present invention；

Fig. 4 is the module diagram of the Main Processor Unit in Fig. 2；

Fig. 5 is the module diagram of the slave processing unit in Fig. 2；

Fig. 6 is the another module diagram of the Main Processor Unit in Fig. 2；

Fig. 7 is the another module diagram of the Main Processor Unit in Fig. 2.

The embodiments will be further described with reference to the accompanying drawings for the realization, the function and the advantages of the object of the present invention.

Embodiment

It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, it is not intended to limit the present invention.

The embodiment of the present invention is described below in detail, the example of the embodiment is shown in the drawings, wherein from beginning to end Same or similar label represents same or similar element or has the function of same or like element.Below with reference to attached The embodiment of figure description is exemplary, and is only used for explaining the present invention, and is not construed as limiting the claims.

Those skilled in the art of the present technique are appreciated that unless expressly stated, singulative " one " used herein, " one It is a ", " described " and "the" may also comprise plural form.It is to be further understood that what is used in the specification of the present invention arranges Diction " comprising " refer to there are the feature, integer, step, operation, element and/or component, but it is not excluded that in the presence of or addition One or more other features, integer, step, operation, element, component and/or their groups.It should be understood that when we claim member Part is " connected " or during " coupled " to another element, it can be directly connected or coupled to other elements, or there may also be Intermediary element.In addition, " connection " used herein or " coupling " can include wireless connection or wireless coupling.It is used herein to arrange Taking leave "and/or" includes whole or any cell and all combinations of one or more associated list items.

Those skilled in the art of the present technique are appreciated that unless otherwise defined, all terms used herein (including technology art Language and scientific terminology), there is the meaning identical with the general understanding of the those of ordinary skill in fields of the present invention.Should also Understand, those terms such as defined in the general dictionary, it should be understood that have with the context of the prior art The consistent meaning of meaning, and unless by specific definitions as here, idealization or the implication of overly formal otherwise will not be used To explain.

Those skilled in the art of the present technique are appreciated that " terminal " used herein above, " terminal device " both include wireless communication The equipment of number receiver, it only possesses the equipment of the wireless signal receiver of non-emissive ability, and including receiving and transmitting hardware Equipment, its have on bidirectional communication link, can perform two-way communication reception and launch hardware equipment.This equipment It can include：Honeycomb or other communication equipments, it shows with single line display or multi-line display or without multi-line The honeycomb of device or other communication equipments；PCS (Personal Communications Service, PCS Personal Communications System), it can With combine voice, data processing, fax and/or its communication ability；PDA (Personal Digital Assistant, it is personal Digital assistants), it can include radio frequency receiver, pager, the Internet/intranet access, web browser, notepad, day Go through and/or GPS (Global Positioning System, global positioning system) receiver；Conventional laptop and/or palm Type computer or other equipment, its have and/or the conventional laptop including radio frequency receiver and/or palmtop computer or its His equipment." terminal " used herein above, " terminal device " they can be portable, can transport, installed in the vehicles (aviation, Sea-freight and/or land) in, or be suitable for and/or be configured in local runtime, and/or with distribution form, operate in the earth And/or any other position operation in space." terminal " used herein above, " terminal device " can also be communication terminal, on Network termination, music/video playback terminal, such as can be PDA, MID (Mobile Internet Device, mobile Internet Equipment) and/or with music/video playing function mobile phone or the equipment such as smart television, set-top box.

The task processing method and device of the embodiment of the present invention, are mainly used in the wearable devices such as intelligent watch, certainly Other terminal devices are can be applied to, this is not limited by the present invention.Carried out below exemplified by applied to intelligent watch detailed Explanation.

With reference to Fig. 1, propose one embodiment of task processing method of the present invention, the described method comprises the following steps：

S11, Main Processor Unit perform high load capacity task.

S12, at the end of high load capacity task, Main Processor Unit notice performs underload task from processing unit, and automatically Into low-power consumption mode.

In the embodiment of the present invention, intelligent watch includes two processing units, is respectively Main Processor Unit and from processing unit. The preferred MCU of processing unit (Microcontroller Unit, micro-control unit), such as intelligent watch configure main MCU and One from MCU.Intelligent watch further includes display unit 30, as shown in Fig. 2, preferably, Main Processor Unit 10, from processing unit 20 and display unit 30 be sequentially connected, this master-slave processing unit cascaded mode drives display unit 30 so that circuit is more Add and simplify, improve the stability and reliability of circuit.

The performance of Main Processor Unit is stronger, but power consumption is larger, is mainly used for performing high load capacity task so that intelligent watch can With the smooth various complicated application programs of operation, various abundant functions are realized, so as to ensure that the performance of intelligent watch.From The performance of processing unit is weaker, but power consumption is relatively low, is mainly used for performing underload task.At the end of high load capacity task, main place Reason unit then notifies to perform underload task from processing unit, then automatically into low-power consumption mode (such as sleep mode).Low Under power consumption mode, Main Processor Unit substantially reduces working frequency, and closes most of function, only reserve statement can receive work( Can, thus greatly reduce power consumption.It is achieved thereby that the balance of performance and power consumption.

In the embodiment of the present invention, before step S11, Main Processor Unit receives assignment instructions, if Main Processor Unit at this time In low-power consumption mode, then operating mode is switched to from low-power consumption mode, the type for the judging to intend performing of the task is appointed for high load capacity Business or underload task.When the intending performing of the task is high load capacity task, then S11 is entered step, i.e. Main Processor Unit performs The high load capacity task；When the intending performing of the task is underload task, Main Processor Unit then notifies to perform this from processing unit low Load task.

Assignment instructions include at least one of instruction such as key command, communication instruction, phonetic order.Such as：Work as button When being triggered, Main Processor Unit then receives key command；When wireless communication module (such as bluetooth module) is sent out to Main Processor Unit Deliver letters breath when, Main Processor Unit then receives assignment instructions；When microphone receives special sound information, Main Processor Unit is then Receive phonetic order.

In the type for the task of determining, if the intending performing of the task is show map, calculates real-time parameter, is synchrodata, aobvious Show the more complicated task such as communication information, the task that Main Processor Unit then judges to intend performing is high load capacity task；If intend performing Task then judge to intend for the fairly simple task such as renewal time or the non real-time parameter of renewal or standby tasks, Main Processor Unit The task of execution is underload task.

The show map shows the cartographic information of current location as opened GPS, and the calculating real-time parameter is such as moving The parameter such as real-time statistics step number, speed, distance, heart rate, blood pressure under pattern, the synchrodata such as with mobile phone, tablet terminal Equipment is synchronized with the movement data, address book data etc., the display communication information instant messaging letter that for example display terminal sends Breath, short message, call-in reporting information etc..The renewal time such as timing (as being spaced 1 minute or so) refresh time, the renewal Non real-time parameter such as timing (as interval 2-5 minute) refresh temperature, air pressure parameter and under non-moving pattern timing (such as between Every 1 minute or so) refresh the parameters such as step number, speed, distance.

Further, when the intending performing of the task is underload task, Main Processor Unit is then automatically into low-power consumption mode. So as to even if Main Processor Unit is waken up by assignment instructions from low-power consumption mode, if but the corresponding task of assignment instructions is underload During task, processing unit can also recover low power consumpting state in time, greatly reduce power consumption.

In certain embodiments, when Main Processor Unit is in low-power consumption mode, can also be appointed by being received from processing unit Business instruction, and the type for the judging to intend performing of the task is high load capacity task or underload task.When the intending performing of the task is height During load task, then Main Processor Unit is waken up so that Main Processor Unit enters operating mode from low-power consumption mode, and enters step S11, i.e. Main Processor Unit perform the high load capacity task；When the intending performing of the task is underload task, then held from processing unit The row underload task, Main Processor Unit keep low-power consumption mode.

Further, in order to further reduce power consumption, when Main Processor Unit performs high load capacity task, Main Processor Unit Inform about from processing unit and enter low-power consumption mode.Specifically, Main Processor Unit refers to from processing unit transmission low-power consumption mode Order, low-power consumption mode instruction is received from processing unit, and output is shorted to input, such as side by programming mapping according to the instruction Formula will be exported with inputting short circuit, hence into low-power consumption mode.

At this time, in step S12, at the end of high load capacity task, Main Processor Unit sends operating mode to from processing unit Instruction, receives operating mode instruction from processing unit, operating mode is switched to from low-power consumption mode according to the instruction, in Working mould Underload task, such as renewal time, the non real-time parameter of renewal are performed under formula.

When it is implemented, can using MT2523 as main MCU, FPGA (Field-Programmable Gate Array, That is field programmable gate array) it is used as from MCU.Powerful main MCU, reaches the speed of 30FPS on the display screen of 240*240, Every high load operation such as operation GPS navigation that can be smooth；The slave MCU of super low-power consumption, can be with the simple clock of complete independently Refresh, in the case of working when display screen whole day 24 is small, standby current also as low as 0.2mA.So as to ensure that intelligent hand The high-performance of table and low-power consumption.

The task processing method of the embodiment of the present invention, by configuring two processing units of principal and subordinate, is held by Main Processor Unit Row high load capacity task, to ensure the fluency of system, at the end of high load capacity task, Main Processor Unit is then notified from processing unit Underload task is performed, and automatically into low-power consumption mode, to reduce power consumption.So as to both ensure that the high-performance of intelligent watch, The power consumption of intelligent watch is reduced again, extends stand-by time, it is achieved thereby that the balance of performance and power consumption, has taken into account intelligent hand The high-performance of table and low-power consumption.

With reference to Fig. 3, propose one embodiment of Task Processing Unit of the present invention, described device include Main Processor Unit 10 and from Processing unit 20.As shown in Fig. 2, preferably, Main Processor Unit 10 is connected with from processing unit 20, from processing unit 20 and intelligence The display unit 30 of energy wrist-watch connects, and display unit 30 is driven by the way of the cascade of this master-slave processing unit 20 so that Circuit is more simplified, and improves the stability and reliability of circuit.

The performance of Main Processor Unit 10 is stronger, but power consumption is larger, is mainly used for performing high load capacity task so that intelligent watch Various complicated application programs of operation that can be smooth, realize various abundant functions, so as to ensure that the performance of intelligent watch. It is weaker from the performance of processing unit 20, but power consumption is relatively low, is mainly used for performing underload task.At the end of high load capacity task, Main Processor Unit 10 then notifies to perform underload task from processing unit 20, then automatically into low-power consumption mode (such as dormancy mould Formula).Under low-power consumption mode, Main Processor Unit 10 substantially reduces working frequency, and closes most of function, can only retain and refer to Receive capabilities are made, thus greatly reduce power consumption.It is achieved thereby that the balance of performance and power consumption.

In certain embodiments, Main Processor Unit 10 is as shown in figure 4, including the first execution module 11, the first notification module 12 and first mode handover module 13, wherein：First execution module 11, for performing high load capacity task；First notification module 12, For at the end of high load capacity task, notifying to perform underload task from processing unit 20, such as work is sent to from processing unit 20 Operation mode instructs；First mode handover module 13, at the end of high load capacity task, control Main Processor Unit 10 to enter low work( Consumption pattern.

At this time, from processing unit 20 as shown in figure 5, including command reception module 21, second mode handover module 22 and Two execution modules 23, wherein：Command reception module 21, for receiving operating mode instruction；Second mode handover module 22, is used for Controlled according to operating mode instruction from processing unit 20 and enter operating mode；Second execution module 23, in the operational mode Perform underload task, such as renewal time, the non real-time parameter of renewal.

In further embodiments, Main Processor Unit 10 is as shown in fig. 6, further include the second notification module 14, this is second logical Know that module 14 is used for：When task execution module performs high load capacity task, notify to enter low-power consumption mode from processing unit 20, such as Low-power consumption mode instruction is sent to from processing unit 20.

At this time, it is additionally operable to receive low-power consumption mode instruction from the command reception module 21 of processing unit 20, second mode is cut Mold changing block 22 is additionally operable to that input will be shorted to from the output of processing unit 20 according to low-power consumption mode instruction, so that from processing unit 20 enter low-power consumption mode.

In an alternative embodiment, Main Processor Unit 10 is as shown in fig. 7, further include task receiving module 15, judgment module 16 and third notice module 17, wherein：Task receiving module 15, for receiving assignment instructions；First mode handover module 13, also For when Main Processor Unit 10 is in low-power consumption mode, controlling Main Processor Unit 10 to be cut from low-power consumption mode according to assignment instructions Change to operating mode；Judgment module 16, the task for judging to intend performing and will be sentenced for high load capacity task or underload task Disconnected result is sent to the first execution module 11 and third notice module 17；First execution module 11, for when the intending performing of the task For high load capacity task when, perform high load capacity task；Third notice module 17, for being underload task when the intending performing of the task When, notify to perform underload task from processing unit 20.

Assignment instructions include at least one of instruction such as key command, communication instruction, phonetic order.Such as：Work as button When being triggered, task receiving module 15 then receives key command；When wireless communication module (such as bluetooth module) is to main process task list When member 10 sends information, task receiving module 15 then receives assignment instructions；When microphone receives special sound information, appoint Business receiving module 15 then receives phonetic order.

In the type for the task of determining, if the intending performing of the task is show map, calculates real-time parameter, is synchrodata, aobvious Show the more complicated task such as communication information, the task that judgment module 16 then judges to intend performing is high load capacity task；If intend performing Task then judges plan for the fairly simple task such as renewal time or the non real-time parameter of renewal or standby tasks, judgment module 16 The task of execution is underload task.

The show map shows the cartographic information of current location as opened GPS, and the calculating real-time parameter is such as moving The parameter such as real-time statistics step number, speed, distance, heart rate, blood pressure under pattern, the synchrodata such as with mobile phone, tablet terminal Equipment is synchronized with the movement data, address book data etc., the display communication information instant messaging letter that for example display terminal sends Breath, short message, call-in reporting information etc..The renewal time such as timing (as being spaced 1 minute or so) refresh time, the renewal Non real-time parameter such as timing (as interval 2-5 minute) refresh temperature, air pressure parameter and under non-moving pattern timing (such as between Every 1 minute or so) refresh the parameters such as step number, speed, distance.

Further, first mode handover module 13 is additionally operable to：When the intending performing of the task is underload task, control master Processing unit 10 enters low-power consumption mode.So as to, even if Main Processor Unit 10 is waken up by assignment instructions from low-power consumption mode, if but When the corresponding task of assignment instructions is underload task, processing unit can also recover low power consumpting state in time, greatly reduce work( Consumption.

In certain embodiments, can also be by being connect from processing unit 20 when Main Processor Unit 10 is in low-power consumption mode Assignment instructions are received, and the type for the judging to intend performing of the task is high load capacity task or underload task.When the intending performing of the task For high load capacity task when, then wake up Main Processor Unit 10 so that Main Processor Unit 10 enters operating mode from low-power consumption mode, and Perform the high load capacity task；When the intending performing of the task is underload task, the underload task is then performed from processing unit 20, Main Processor Unit 10 keeps low-power consumption mode.

The Task Processing Unit of the embodiment of the present invention, by configuring two processing units of principal and subordinate, passes through Main Processor Unit 10 High load capacity task is performed, to ensure the fluency of system, at the end of high load capacity task, Main Processor Unit 10 is then notified from processing Unit 20 performs underload task, and automatically into low-power consumption mode, to reduce power consumption.So as to both ensure that the height of intelligent watch Performance, and the power consumption of intelligent watch is reduced, stand-by time is extended, it is achieved thereby that the balance of performance and power consumption, takes into account The high-performance of intelligent watch and low-power consumption.

It will be understood by those skilled in the art that the present invention includes being related to for performing one in operation described herein Or multinomial equipment.These equipment can specially be designed and manufactured for required purpose, or can also include general-purpose computations Known device in machine.These equipment have the computer program being stored in it, these computer programs optionally activate Or reconstruct.Such computer program, which can be stored in equipment (for example, computer) computer-readable recording medium or be stored in, to be suitable for Storage e-command is simultaneously coupled in any kind of medium of bus respectively, and the computer-readable medium includes but not limited to Any kind of disk (including floppy disk, hard disk, CD, CD-ROM and magneto-optic disk), ROM (Read-Only Memory, it is read-only to deposit Reservoir), RAM (Random Access Memory, random access memory), EPROM (Erasable Programmable Read- Only Memory, Erarable Programmable Read only Memory), EEPROM (Electrically Erasable Programmable Read-Only Memory, Electrically Erasable Programmable Read-Only Memory), flash memory, magnetic card or light card.It is it is, readable Medium includes by equipment (for example, computer) so as to any medium for the form storage or transmission information read.

Those skilled in the art of the present technique be appreciated that can with computer program instructions come realize these structure charts and/or The combination of each frame and these structure charts and/or the frame in block diagram and/or flow graph in block diagram and/or flow graph.This technology is led Field technique personnel be appreciated that these computer program instructions can be supplied to all-purpose computer, special purpose computer or other The processor of programmable data processing method is realized, so that the processing by computer or other programmable data processing methods Device performs the scheme specified in the frame of structure chart and/or block diagram and/or flow graph disclosed by the invention or multiple frames.

Those skilled in the art of the present technique are appreciated that in the various operations discussed in the present invention, method, flow Steps, measures, and schemes can be replaced, changed, combined or be deleted.Further, it is each with having been discussed in the present invention Other steps, measures, and schemes in kind operation, method, flow may also be alternated, changed, rearranged, decomposed, combined or deleted. Further, it is of the prior art to have and the step in the various operations disclosed in the present invention, method, flow, measure, scheme It may also be alternated, changed, rearranged, decomposed, combined or deleted.

The foregoing is merely the preferred embodiment of the present invention, is not intended to limit the scope of the invention, every utilization The equivalent structure or equivalent flow shift that description of the invention and accompanying drawing content are made, it is related to be directly or indirectly used in other Technical field, be included within the scope of the present invention.

Claims (10)

1. a kind of task processing method, it is characterised in that comprise the following steps：

Main Processor Unit performs high load capacity task；

At the end of the high load capacity task, the Main Processor Unit notice performs underload task from processing unit, and automatically Into low-power consumption mode.

2. task processing method according to claim 1, it is characterised in that the Main Processor Unit performs high load capacity task Step while further include：

The Main Processor Unit notice is described to enter low-power consumption mode from processing unit.

3. task processing method according to claim 2, it is characterised in that the Main Processor Unit notice is described from processing Unit, which enters the step of low-power consumption mode, to be included：

The Main Processor Unit sends low-power consumption mode instruction to described from processing unit；

It is described to receive low-power consumption mode instruction from processing unit, instructed according to the low-power consumption mode output is shorted to it is defeated Enter, into low-power consumption mode.

4. task processing method according to claim 2, it is characterised in that the Main Processor Unit is notified from processing unit The step of performing underload task includes：

The Main Processor Unit sends operating mode instruction to described from processing unit；

It is described to receive the operating mode instruction from processing unit, operating mode is entered according to the operating mode instruction, is performed Underload task.

5. according to claim 1-4 any one of them task processing methods, it is characterised in that the Main Processor Unit performs height Further included before the step of load task：

The Main Processor Unit receives assignment instructions；

The Main Processor Unit enters operating mode according to the assignment instructions, judge intend perform task for high load capacity task also It is underload task；

When the intending performing of the task is high load capacity task, into next step：Main Processor Unit performs high load capacity task；

When the intending performing of the task is underload task, the Main Processor Unit notice is described described low negative from processing unit execution Lotus task.

6. a kind of Task Processing Unit, it is characterised in that including Main Processor Unit and from processing unit, the Main Processor Unit bag Include：

First execution module, for performing high load capacity task；

First notification module, at the end of the high load capacity task, notice to be described from processing unit execution underload task；

First mode handover module, at the end of the high load capacity task, controlling the Main Processor Unit to enter low-power consumption Pattern.

7. Task Processing Unit according to claim 6, it is characterised in that the Main Processor Unit further includes the second notice Module, second notification module are used for：When the task execution module performs high load capacity task, notice is described single from processing Member enters low-power consumption mode.

8. Task Processing Unit according to claim 7, it is characterised in that described to include command reception mould from processing unit Block and second mode handover module；

First notification module is used for：At the end of the high load capacity task, low-power consumption mould is sent from processing unit to described Formula instructs；

Described instruction receiving module is used for：Receive the low-power consumption mode instruction；

The second mode handover module is used for：Instructed according to the low-power consumption mode by the output short circuit from processing unit To input, so that described enter low-power consumption mode from processing unit.

9. Task Processing Unit according to claim 7, it is characterised in that described to include command reception mould from processing unit Block, second mode handover module and the second execution module；

Second notification module is used for：At the end of the high load capacity task, operating mode is sent from processing unit to described Instruction；

Described instruction receiving module is used for：Receive the operating mode instruction；

The second mode handover module is used for：Enter Working mould from processing unit according to operating mode instruction control Formula；

Second execution module is used for：Underload task is performed in the operational mode.

10. according to claim 6-9 any one of them Task Processing Units, it is characterised in that the Main Processor Unit also wraps Include task receiving module, judgment module and third notice module：

The task receiving module is used for：Receive assignment instructions；

The first mode handover module is additionally operable to：The Main Processor Unit is controlled to enter Working mould according to the assignment instructions Formula；

The judgment module is used for：The judging to intend performing of the task is high load capacity task or underload task；

First execution module is used for：When the intending performing of the task is high load capacity task, the high load capacity task is performed；

The third notice module is used for：When the intending performing of the task is underload task, notice is described to be performed from processing unit The underload task.