CN104808765B - A kind of information processing method and electronic equipment - Google Patents

A kind of information processing method and electronic equipment Download PDF

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Publication number
CN104808765B
CN104808765B CN201410040377.XA CN201410040377A CN104808765B CN 104808765 B CN104808765 B CN 104808765B CN 201410040377 A CN201410040377 A CN 201410040377A CN 104808765 B CN104808765 B CN 104808765B
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China
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volatile memory
memory cells
state
electronic equipment
stored
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CN201410040377.XA
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Chinese (zh)
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CN104808765A (en
Inventor
刘鑫全
纪纲
蒋晓华
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联想(北京)有限公司
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Priority to CN201410040377.XA priority Critical patent/CN104808765B/en
Publication of CN104808765A publication Critical patent/CN104808765A/en
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Publication of CN104808765B publication Critical patent/CN104808765B/en

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Abstract

The invention discloses a kind of information processing method and electronic equipment, the information processing method includes:When electronic equipment is in the first state of operation operating system, the first instruction is obtained, wherein, the first non-volatile memory cells and the second non-volatile memory cells, which are in, in the first state is powered state;Based on the first instruction, electronic equipment switches to the second state for not running operating system, wherein the first non-volatile memory cells and the second non-volatile memory cells are in and are not powered state in the second condition, system operation data before second non-volatile memory cells storage the first instruction of acquisition in the second non-volatile memory cells, to cause the electronic equipment in the second condition, obtain the second instruction, and instructed according to second, according to the system operation data stored in the second non-volatile memory cells, electronic equipment is switched into first state.

Description

A kind of information processing method and electronic equipment

Technical field

The present invention relates to electronic technology field, more particularly to a kind of information processing method and electronic equipment.

Background technology

With the continuous development of scientific technology, electronic technology has also obtained development at full speed, and the species of electronic product is also got over Come more, people have also enjoyed the various facilities that development in science and technology is brought.Present people can be set by various types of electronics It is standby, enjoy the comfortable life brought with development in science and technology.For example, the electronics such as smart mobile phone, tablet personal computer and notebook computer is set Standby to have become an important part in people's life, user can use smart mobile phone, tablet personal computer and notebook The electronic equipments such as computer come listen music, play game etc., to mitigate pressure caused by modern fast pace life.

By taking notebook computer as an example, in order to save the energy consumption of notebook computer, ACPI(ACPI, Advanced Configuration and Power Interface)Specification defines several states of notebook computer, example Normal operating conditions in this way(Namely S0 states), holding state(Namely S3 states, or it is suspended to internal storage state)Etc., standby Under state, system all stores the operating state data before entering S3 states into internal memory, so as to facilitate the fast quick-recovery of user Into normal operating conditions.

But the present inventor has found that above-mentioned technology is at least present during the technical scheme in realizing the embodiment of the present invention Following technical problem:

In the standby state, power supply continues to power for the most necessary equipment such as internal memory, to ensure that data are not lost, from And the consumption electricity that can continue, therefore, electronic equipment exists and still internal memory can be powered in holding state in the prior art, with The service data for preserving electronic equipment is not lost, so as to which electronic equipment can be caused persistently to consume the technical problem of electricity.

The content of the invention

The embodiment of the present invention is by providing a kind of information processing method, to solve present in prior art in standby shape Still internal memory can be powered during state, not lost with preserving the service data of electronic equipment, so as to electronic equipment be caused persistently to disappear The technical problem of power consumption.

On the one hand the embodiment of the present invention provides a kind of information processing method, applied to electronic equipment, the electronic equipment Including the first non-volatile memory cells and the second non-volatile memory cells, the first of first non-volatile memory cells Read or write speed is less than the second read or write speed of second non-volatile memory cells, and first non-volatile memory cells At least can storage program area source program data, second non-volatile memory cells can at least transport in the operating system At least part system operation data during the operating system is stored during row, methods described includes:

When the electronic equipment is in the first state of operation operating system, the first instruction is obtained, wherein, described the First non-volatile memory cells and second non-volatile memory cells, which are in, under one state is powered state, and institute The source program data that the first non-volatile memory cells are at least stored with the operating system of the electronic equipment is stated, described second is non- Volatile memory cell at least stores at least part system operation data during the operating system;

Based on the described first instruction, the electronic equipment switches to the second state for not running the operating system, wherein First non-volatile memory cells and second non-volatile memory cells, which are in, in said second condition is not supplied Electricity condition, the second non-volatile memory cells storage obtain second non-volatile memory cells before first instruction In the system operation data, to cause the electronic equipment in said second condition, the second instruction is obtained, and according to institute The second instruction is stated, according to the system operation data stored in second non-volatile memory cells, the electronics is set It is standby to switch to the first state.

Alternatively, before the electronic equipment is in the first state for running the operating system, methods described is also wrapped Include:

By at least one in the source program data of the operating system stored in first non-volatile memory cells Partial data is copied in second non-volatile memory cells and run, and by the operation number of at least a portion data According to being stored in second non-volatile memory cells, to cause the electronic equipment to enter the first state.

Alternatively, the electronic equipment also includes volatile memory cell, the 3rd read-write of the volatile memory cell Speed is higher than first read or write speed, and the volatile memory cell can at least store described in the operating system At least part system operation data, wherein, the volatile memory cell is in and is powered state in said first condition, The volatile memory cell is in and is not powered state under second state.

Alternatively, the source program number of at least one application program is also stored with first non-volatile memory cells According to when the electronic equipment is in the first state, the system operation data during operating system is stored in institute State in the second non-volatile memory cells, when any one at least one application program or multiple application programs are run Application service data be stored in the volatile memory cell.

Alternatively, when the electronic equipment is in the first state, the system operation data is transported with the application The data volume sum of row data is more than the memory capacity of second non-volatile memory cells.

Alternatively, after the electronic equipment is in the first state of operation operating system, described the is obtained described Before one instruction, or described according to the system operation data stored in second non-volatile memory cells, by institute State electronic equipment to switch to after the first state, methods described also includes:

Obtain the 3rd instruction;

Based on the described 3rd instruction, the electronic equipment switches to the third state for not running the operating system, wherein First non-volatile memory cells, second non-volatile memory cells and the volatibility under the third state Memory cell is in the state that is not powered, and second non-volatile memory cells, which do not store, to be obtained described in before the 3rd instruction The system operation data in second non-volatile memory cells;

Under the third state, the 4th instruction is obtained;

Based on the described 4th instruction, the electronic equipment switches to the 4th state for running the operating system, wherein Under 4th state, the system fortune during operating system is only stored in second non-volatile memory cells Row data, first non-volatile memory cells and second non-volatile memory cells are in and are powered state, described Volatile memory cell be in be not powered state, with enable the electronic equipment delete or unload it is described it is at least one should With any application program in program.

Alternatively, after the electronic equipment is in the first state of operation operating system, described the is obtained described Before one instruction, or described according to the system operation data stored in second non-volatile memory cells, by institute State electronic equipment to switch to after the first state, methods described also includes:

The 5th instruction is obtained, and based on the described 5th instruction, stops powering to the volatile memory cell so that described Electronic equipment enters the 5th state, to enable the electronic equipment to delete or unload at least one application program Any application program, wherein under the 5th state, first non-volatile memory cells and described second non-volatile Memory cell is in the state that is powered, and the volatile memory cell is in and is not powered state.

Alternatively, after the electronic equipment is in the first state of operation operating system, described the is obtained described Before one instruction, or described according to the system operation data stored in second non-volatile memory cells, by institute State electronic equipment to switch to after the first state, methods described also includes:

It is determined that need the first application program run;

According to first application program, determine that the first application service data during the first application program operation stores In second non-volatile memory cells or in the volatile memory cell.

Alternatively, it is described according to first application program, determine the first application during the first application program operation Service data is stored in second non-volatile memory cells or in the volatile memory cell, is specifically included:

The first storage address label corresponding to first application program is obtained, and according to the first storage address label Described in storage address, determine that described first is stored in second non-volatile memory cells or storage using service data In the volatile memory cell;Or

In the mapping table between the storage address using service data when application program and application program are run, Storage address corresponding to first application program, and the storage address according to corresponding to first application program are searched, it is determined that Described first is stored in second non-volatile memory cells or is stored in the volatile memory cell using service data In.

Alternatively, it is described determine it is described first using service data be stored in second non-volatile memory cells or After being stored in the volatile memory cell, methods described also includes:When running first application program, by described in First is correspondingly stored in second non-volatile memory cells or is stored in the volatile storage list using service data In member.

Alternatively, second non-volatile memory cells are correspondingly stored in using service data by described first described In or after being stored in the volatile memory cell, methods described also includes:

An adjust instruction is obtained, the adjust instruction is used to control the electronic equipment adjustment the first application operation number According to storage address;

Based on the adjust instruction, the storage address of adjustment the first application service data.

Alternatively, it is described to be based on the adjust instruction, the storage address of adjustment the first application service data, specific bag Include:

It is described described first is correspondingly stored in second non-volatile memory cells using service data after, Described first is copied in the volatile memory cell using service data from second non-volatile memory cells, and Delete described first be stored in second non-volatile memory cells and apply service data;Or

It is described described first is correspondingly stored in the volatile memory cell using service data after, will described in First copies in second non-volatile memory cells using service data from the volatile memory cell, and deletes and deposit Described first stored up in the volatile memory cell applies service data.

Alternatively, described second is copied to from the volatile memory cell using service data by described first described In non-volatile memory cells, and delete be stored in the volatile memory cell it is described first application service data it Afterwards, methods described also includes:

Needing to revert to described first in the volatile memory cell using service data, it is non-easy by described second Described first in the property lost memory cell copies in the volatile memory cell using service data, and deletes described second Described first in non-volatile memory cells applies service data.

Alternatively, the electronic equipment be in operation operating system first state before, methods described also include with At least two modes that lower three kinds of control electronic equipment enters in the first state:

The first:The source program data of the operating system stored in first non-volatile memory cells is replicated Into second non-volatile memory cells and run, to cause the electronic equipment to enter the first state;

Second:The source program data of the operating system stored in first non-volatile memory cells is replicated Into the volatile memory cell and run, to cause the electronic equipment to enter the first state;

The third:The source program data of the operating system stored in first non-volatile memory cells is replicated Into second non-volatile memory cells and the volatile memory cell and run, to cause the electronic equipment to enter The first state.

On the other hand the embodiment of the present invention also provides a kind of electronic equipment, including:

First non-volatile memory cells, first non-volatile memory cells can at least store the electronic equipment The source program data of operating system;

Second non-volatile memory cells, it is connected with first non-volatile memory cells, described second is non-volatile At least part system operation number when memory cell at least can store the operating system in the operating system According to second of the first read or write speed less than second non-volatile memory cells of first non-volatile memory cells is read Writing rate;

Processing unit, respectively with first non-volatile memory cells and the second non-volatile memory cells phase Even, during first state for being in operation operating system in the electronic equipment, the first instruction is obtained, wherein, described the First non-volatile memory cells and second non-volatile memory cells, which are in, under one state is powered state, and institute The source program data that the first non-volatile memory cells are at least stored with the operating system of the electronic equipment is stated, described second is non- Volatile memory cell at least stores at least part system operation data during the operating system, and based on described first Instruction, the electronic equipment switches to the second state for not running the operating system, wherein described in said second condition First non-volatile memory cells and second non-volatile memory cells, which are in, is not powered state, and described second is non-volatile Property memory cell storage obtain the system operation data before first instruction in second non-volatile memory cells, To cause the electronic equipment in said second condition, the second instruction is obtained, and according to the described second instruction, according to described the The system operation data stored in two non-volatile memory cells, the electronic equipment is switched into the first state.

Alternatively, the processing unit is additionally operable to be in the first state of the operation operating system in the electronic equipment Before, by least a portion in the source program data of the operating system stored in first non-volatile memory cells Data duplication is into second non-volatile memory cells and runs, and the service data of at least a portion data is deposited Storage is in second non-volatile memory cells, to cause the electronic equipment to enter the first state.

Alternatively, the electronic equipment also includes volatile memory cell, the volatile memory cell respectively with it is described First non-volatile memory cells, second non-volatile memory cells are connected with the processing unit, and the volatibility is deposited 3rd read or write speed of storage unit is higher than first read or write speed, and the volatile memory cell is in the operating system When can at least store at least part system operation data, wherein, the volatile memory cell in said first condition In the state that is powered, the volatile memory cell is in and is not powered state in said second condition.

Alternatively, the source program number of at least one application program is also stored with first non-volatile memory cells According to when the electronic equipment is in the first state, the system operation data during operating system is stored in institute State in the second non-volatile memory cells, when any one at least one application program or multiple application programs are run Application service data be stored in the volatile memory cell.

Alternatively, the processing unit is additionally operable to when the electronic equipment is in the first state, in the acquisition Before first instruction, or described according to the system operation number stored in second non-volatile memory cells According to, after the electronic equipment is switched into the first state, the instruction of acquisition the 3rd;And based on the described 3rd instruction, it is described Electronic equipment switches to the third state for not running the operating system, wherein described first non-volatile under the third state Property memory cell, second non-volatile memory cells and the volatile memory cell be in be not powered state, it is described Second non-volatile memory cells do not store described in second non-volatile memory cells before acquisition the described 3rd instructs System operation data, and under the third state, the 4th instruction is obtained, and based on the described 4th instruction, the electronic equipment The 4th state for running the operating system is switched to, wherein under the 4th state, the second non-volatile memories list System operation data when only storing the operating system in member, first non-volatile memory cells and described Second non-volatile memory cells are in the state that is powered, and the volatile memory cell is in and is not powered state, to cause Any application program at least one application program can be deleted or unloaded to the electronic equipment.

Alternatively, the processing unit be additionally operable to the electronic equipment be in operation operating system first state it Afterwards, before the acquisition first instruction, or described according to the institute stored in second non-volatile memory cells System operation data is stated, after the electronic equipment is switched into the first state, obtains the 5th instruction, and based on described the Five instructions, stop powering to the volatile memory cell so that the electronic equipment enters the 5th state, to cause the electricity Any application program at least one application program can be deleted or unloaded to sub- equipment, wherein in the 5th state Under, first non-volatile memory cells and second non-volatile memory cells are in and are powered state, described volatile Property memory cell be in be not powered state.

Alternatively, the processing unit be additionally operable to the electronic equipment be in operation operating system first state it Afterwards, before the acquisition first instruction, or described according to the institute stored in second non-volatile memory cells System operation data is stated, after the electronic equipment is switched into the first state, it is determined that need to run first applies journey Sequence, the source program data of first application program are stored in first non-volatile memory cells, and according to described One application program, it is non-volatile to determine that the first application service data during the first application program operation is stored in described second In memory cell or in the volatile memory cell.

Alternatively, the processing unit is additionally operable to obtain the first storage address label corresponding to first application program, And the storage address according to described in the first storage address label, it is described to determine that the first application service data is stored in Second non-volatile memory cells are stored in the volatile memory cell, or when application program and application program are run The storage address using service data between mapping table in, search storage corresponding to first application program Location, and the storage address according to corresponding to first application program, determine that described first is stored in described the using service data Two non-volatile memory cells are stored in the volatile memory cell.

Alternatively, the processing unit is additionally operable to determine that described first is stored in described second using service data described Non-volatile memory cells or after being stored in the volatile memory cell, will when running first application program Described first is correspondingly stored in second non-volatile memory cells or is stored in the volatibility using service data deposits In storage unit.

Alternatively, the processing unit is additionally operable to correspondingly be stored in described the using service data by described first described In two non-volatile memory cells or after being stored in the volatile memory cell, an adjust instruction, the adjustment are obtained The storage address for controlling the electronic equipment adjustment the first application service data is instructed, and is referred to based on the adjustment Order, the storage address of adjustment the first application service data.

Alternatively, the processing unit is specifically additionally operable to correspondingly be stored in institute using service data by described first described After stating in the second non-volatile memory cells, service data is applied from second non-volatile memory cells by described first Copy in the volatile memory cell, and delete described first be stored in second non-volatile memory cells and answer With service data, or it is described described first is correspondingly stored in the volatile memory cell using service data after, Described first in second non-volatile memory cells is copied in the volatile memory cell using service data, And described first deleted in second non-volatile memory cells applies service data.

Alternatively, the processing unit is additionally operable to described that to be stored in described second non-using service data by described first Volatile memory cell or after being stored in the volatile memory cell, it is described by the described first application service data from Second non-volatile memory cells copy in the volatile memory cell or run the described first application described Before data are copied in second non-volatile memory cells from the volatile memory cell, detection first storage Whether address tag changes, wherein, when the first change occurs for the first storage address label, the first change table The storage address described in the bright first storage address label is replaced by institute by second non-volatile memory cells Volatile memory cell is stated, performs step:Described first is answered using service data from second non-volatile memory cells Make in the volatile memory cell;When the second change occurs for the first storage address label, the second change table The storage address described in the bright first storage address label is replaced by described second by the volatile memory cell Non-volatile memory cells, perform step:By described first institute is copied to using service data from the volatile memory cell State in the second non-volatile memory cells.

Alternatively, the processing unit be additionally operable to the electronic equipment be in operation operating system first state it Before, the source program data of the operating system is loaded into second non-volatile memory cells and/or the volatile storage In unit, to cause the electronic equipment to enter the first state.

On the other hand the embodiment of the present invention also provides a kind of electronic equipment, including:

Casing;

Circuit board, it is arranged in the casing;

First nonvolatile memory, it is connected with the circuit board, first non-volatile memory cells can at least be deposited Store up the source program data of the operating system of the electronic equipment;

Second nonvolatile memory, it is arranged on the circuit board, is connected with first nonvolatile memory, institute The second non-volatile memory cells are stated when at least can store the operating system in the operating system at least Part system service data, the first read or write speed of first non-volatile memory cells is non-volatile less than described second to deposit Second read or write speed of storage unit;

Processor, be arranged on the circuit board, respectively with first nonvolatile memory and it is described second it is non-easily The property lost memory is connected, for when the electronic equipment is in the first state for running operating system, obtaining the first instruction, its In, first nonvolatile memory and second nonvolatile memory, which are in, in said first condition is powered shape State, and first nonvolatile memory is at least stored with the source program data of the operating system of the electronic equipment, it is described Second nonvolatile memory at least stores at least part system operation data during the operating system, and based on described First instruction, the electronic equipment switches to the second state for not running the operating system, wherein in said second condition First nonvolatile memory and second nonvolatile memory, which are in, is not powered state, and described second is non-volatile Property memory storage obtain the system operation data before first instruction in second nonvolatile memory so that Under second state described in the electronic equipment of obtaining, the second instruction is obtained, and according to the described second instruction, it is non-easy according to described second The system operation data stored in the property lost memory, the first state is switched to by the electronic equipment.

Alternatively, the electronic equipment also includes volatile memory, and the volatile memory is respectively with described first Nonvolatile memory, second nonvolatile memory are connected with the processor, and the 3rd of the volatile memory the Read or write speed is higher than first read or write speed, and the volatile memory can at least store institute in the operating system At least part system operation data is stated, wherein, the volatile memory is in and is powered state in said first condition, The volatile memory is in and is not powered state under second state.

The one or more technical schemes provided in the embodiment of the present invention, have at least the following technical effects or advantages:

1st, the second state for not running operating system is switched to as a result of based on the first instruction, electronic equipment, wherein The first non-volatile memory cells and the second non-volatile memory cells, which are in, in the second condition is not powered state, and second is non- System operation data before volatile memory cell storage the first instruction of acquisition in the second non-volatile memory cells, to cause State electronic equipment in the second condition, obtain the second instruction, and instructed according to second, according in the second non-volatile memory cells The system operation data of storage, electronic equipment is switched to the technical scheme of first state, and wherein first state namely electronics is set The holding state of standby normal operating condition, the second state namely electronic equipment, electronic equipment are instructed by first based on first After state switches to the second state, it is not necessary to which the first non-volatile memory cells and the second non-volatile memory cells are persistently entered Row power supply, it becomes possible to instructed according to second, switch to first state from the second state, that is to say, that electronic equipment is in standby shape Internal memory will not be powered under state, so solving in the prior art, electronic equipment still can power in holding state to internal memory, Do not lost with preserving the service data of electronic equipment, so as to which electronic equipment can be caused persistently to consume the technical problem of electricity, realized Save the technique effect of the energy consumption of electronic equipment.

2nd, due to will not be carried out when the electronic equipments such as notebook computer are standby to the second non-volatile memory cells Power supply, it becomes possible to the purpose for preserving the data in the second non-volatile memory cells is realized, it is achieved thereby that reducing notebook The technique effect of the energy consumption of the electronic equipments such as computer, set for portable electronics such as notebook computer, smart mobile phone, tablet personal computers For standby, by increasing capacitance it is possible to increase the stand-by time of electronic equipment, avoid user and charged regularly for portable electric appts, saved The time of user, so as to improve Consumer's Experience.

Brief description of the drawings

Fig. 1 is the functional block diagram of electronic equipment provided in an embodiment of the present invention;

Fig. 2 is the flow chart of information processing method provided in an embodiment of the present invention;

Fig. 3 is the entity module figure of electronic equipment provided in an embodiment of the present invention.

Embodiment

The embodiment of the present invention provides a kind of information processing method and electronic equipment, solves electric present in prior art Sub- equipment still can power in holding state to internal memory, not lost with preserving the service data of electronic equipment, so as to cause Electronic equipment persistently consumes the technical problem of electricity.

Technical scheme in the embodiment of the present invention is in order to solve the above technical problems, general thought is as follows:

The embodiment of the present invention provides a kind of information processing method, and this method is applied to an electronic equipment, the electronic equipment bag Include the first non-volatile memory cells and the second non-volatile memory cells, the first read-write speed of the first non-volatile memory cells Degree is less than the second read or write speed of the second non-volatile memory cells, and the first non-volatile memory cells are at least stored with electronics The source program data of the operating system of equipment, the second non-volatile memory cells at least store operation system in operating system System operation data during system operation, this method include:

When electronic equipment is in the first state of operation operating system, the first instruction is obtained, wherein, in the first state First non-volatile memory cells and the second non-volatile memory cells, which are in, is powered state;

Based on the first instruction, electronic equipment switches to the second state for not running operating system, wherein in the second condition First non-volatile memory cells and the second non-volatile memory cells, which are in, is not powered state, the second non-volatile memories list System operation data before member storage the first instruction of acquisition in the second non-volatile memory cells, to cause electronic equipment second Under state, the second instruction is obtained, and is instructed according to second, according to the system operation number stored in the second non-volatile memory cells According to electronic equipment is switched into first state.

It is can be seen that by above-mentioned part as a result of based on the first instruction, electronic equipment, which switches to, does not run operation Second state of system, wherein the first non-volatile memory cells and the second non-volatile memory cells are in the second condition State is not powered, is in the second non-volatile memory cells before the second non-volatile memory cells storage the first instruction of acquisition System service data, to cause electronic equipment in the second condition, the second instruction is obtained, and instructed according to second, it is non-according to second The system operation data stored in volatile memory cell, electronic equipment is switched to the technical scheme of first state, wherein the The holding state of the normal operating condition of one state namely electronic equipment, the second state namely electronic equipment, electronic equipment is in base After the first instruction switches to the second state by first state, it is not necessary to non-volatile to the first non-volatile memory cells and second Property memory cell be persistently powered, it becomes possible to according to second instruct, switch to first state from the second state, that is to say, that Electronic equipment will not power to the second non-volatile memory cells in the standby state, be set so solving electronics in the prior art It is standby still internal memory to be powered in holding state, do not lost with preserving the service data of electronic equipment, so as to which electronics can be caused Equipment persistently consumes the technical problem of electricity, realizes the technique effect for the energy consumption for saving electronic equipment.

In order to be better understood from above-mentioned technical proposal, below in conjunction with Figure of description and specific embodiment to upper Technical scheme is stated to be described in detail.

The embodiment of the present invention provides a kind of information processing method, and this method is applied to an electronic equipment, the electronic equipment bag Include the first non-volatile memory cells and the second non-volatile memory cells, the first read-write speed of the first non-volatile memory cells Degree is less than the second read or write speed of the second non-volatile memory cells, and the first non-volatile memory cells can at least store operation The source program data of system, the second non-volatile memory cells at least can be in operating systems during storage program area operation At least part system operation data.

Fig. 1 is refer to, Fig. 1 is the functional block diagram of electronic equipment provided in an embodiment of the present invention, as shown in figure 1, the electricity Sub- equipment includes:First non-volatile memory cells 101;Second non-volatile memory cells 102, with the first non-volatile memories Unit 101 is connected;Processing unit 103, respectively with the first non-volatile memory cells 101 and the second non-volatile memory cells 102 are connected.

In actual applications, the electronic equipment can be notebook computer, desktop computer or smart mobile phone, put down Plate computer, is not limited herein.

In ensuing part, it will be retouched so that the electronic equipment is a notebook computer as an example to be illustrated in detail State, wherein, the first non-volatile memory cells 101 belong to the external memory storage of notebook computer(Namely external memory), external storage Device refers to the memory in addition to calculator memory and cpu cache, such as can be mechanical hard disk, solid state hard disc(SSD, Solid State Disk or Solid State Drive)Or flash memory(Flash)Etc., the second non-volatile memory cells 102 Belong to the internal storage of electronic equipment(Namely internal memory), internal storage refers to it for example can is resistance internal memory(MRAM, Magnetic Random Access Memory)Or using non-volatility memory(NVM, Non-Volatile Memory)The memory and SRAM of technology(SRAM, Static RAM)This combination, is not limited herein.

In the implementation of the second non-volatile memory cells 102, resistance internal memory uses two pieces of nano-level iron magnets, The structure of a metallic conductor is clamped with a nonmagnetic metal layer or insulating barrier on interface, it is ferromagnetic by changing two pieces Direction, the magnetoresistance (magnetoresistance) of conductor below will change, and resistance passes through it once becoming big Electric current will diminish, vice versa, therefore, only need to a triode come judge power-up when current values just can interpolate that Two kinds of different conditions of ferromagnetic magnetic field direction distinguish " 0 " and " 1 ", and magnetic resistance resistance carrys out data storage with this, due to iron What the magnetic of magnet almost never disappeared, therefore resistance internal memory can almost be rewritten infinitely.And ferromagnetic magnetic Also it will not be disappeared due to power down, so it, which is not as dynamic random stored memory, equally has volatility, but can fallen Continue to keep its content after electric.

In another implementation of the second non-volatile memory cells, non-volatility memory for example can be erasable Except programmable read only memory(EPROM, Erasable Programmable Read-Only Memory), band electrically-erasable can Program read-only memory(EEPROM, Electrically Erasable Programmable Read-Only Memory)Deng Deng electronic equipment is stored in SRAM before SRAM power down using non-volatility memory Data, so as to when start next time, by the data duplication in non-volatility memory to SRAM In, the function of the second non-volatile memory cells is then realized, is just repeated no more herein.

Certainly, by the introduction of the present embodiment, the technical staff belonging to this area can be according to actual conditions, using other Suitably, to meet the needs of actual conditions, can just be repeated no more herein by the way of.

It refer to Fig. 2, Fig. 2 is the flow chart of information processing method provided in an embodiment of the present invention, the information processing method It can apply on notebook computer as shown in Figure 1, as shown in Fig. 2 this method includes:

S1:When electronic equipment is in the first state of operation operating system, the first instruction is obtained, wherein, in the first shape The first non-volatile memory cells and the second non-volatile memory cells, which are in, under state is powered state;

S2:Based on the first instruction, electronic equipment switches to the second state for not running operating system, wherein in the second state Lower first non-volatile memory cells and the second non-volatile memory cells, which are in, is not powered state, the second non-volatile memories Unit storage obtains the system operation data in the second non-volatile memory cells before the first instruction, to cause electronic equipment the Under two-state, the second instruction is obtained, and is instructed according to second, according to the system operation stored in the second non-volatile memory cells Data, electronic equipment is switched into first state.

In specific implementation process, the electronic equipment introduced in step sl is in the first state of operation operating system Before, information processing method provided in an embodiment of the present invention also includes:The operation that will be stored in first non-volatile memory cells At least a portion data duplication in the source program data of system into the second non-volatile memory cells and is run, and will at least The service data of a part of data is stored in the second non-volatile memory cells, to cause electronic equipment to enter first state.

Specifically, notebook computer can be outside by the first non-volatile memory cells such as mechanical hard disk, solid state hard disc etc. At least a portion data in the source program data of the operating system stored in memory, copy to the second non-volatile memories list In member, namely in the internal storage such as resistance internal memory, and at least a portion data are run, and by least a portion data Service data is stored in the second non-volatile memory cells, namely is loaded and run in second non-volatile memory cells Operating system, so that notebook computer enters the first state of operation operating system, on the other hand, second is non-easy The property lost memory cell is specifically as follows non-volatile RAM(Non-Volatile Random Access Memory, NVRAM), therefore the second non-volatile memory cells can be as the internal storage of notebook computer.

In actual applications, the operating system can be Windows systems or linux system etc., certainly, It can also be the other systems that notebook computer can use, not be limited herein.Certainly, if electronic equipment is specially other Equipment, such as a smart mobile phone, then the operating system can be the system that the smart mobile phone can use, such as Android (Android)System etc., just repeat no more herein.

When notebook computer enters the first state of operation operating system, namely notebook computer is in normal work shape During state, such as can be in ACPI(ACPI, Advanced Configuration and Power Interface)During the S0 states that specification defines, now the first non-volatile memory cells 101 and the second non-volatile memories list Member 102 is in and is powered state.

It should be noted that in embodiments of the present invention, when notebook computer is in first state, obtains first and refer to Order, can obtain standby command specifically, notebook computer can switch to holding state according to the standby command, when So, it is necessary to illustrate, the S3 that the holding state in the embodiment of the present invention defines with ACPI specification (Suspend to RAM, STR, are otherwise known as and are suspended to internal memory)State differs, and that is introduced in embodiments of the present invention is standby State, the second non-volatile memory cells 102 are to be in not to be powered state, and this can be further situated between in further part Continue, can be that the first instruction of acquisition user's input or notebook computer are meeting certain predetermined in actual applications In the case of condition, such as the operation of user is not received in a preset time period, i.e. triggering generates the standby command, notes This computer is not limited herein so as to obtain the standby command.

Need further exist for illustrating, the holding state in the embodiment of the present invention, with ACPI specification The S4 of definition(Suspend to Disk, STD, are suspended to hard disk)State differs, and S4 states are commonly referred to as resting state or slept Dormancy state, meanwhile, S4 states are to preserve system operation data into the external memory storages such as hard disk.

After the first instruction is obtained by step S1, information processing method provided in an embodiment of the present invention enters step S2, I.e.:Based on the first instruction, electronic equipment switches to the second state for not running operating system, wherein first non-in the second condition Volatile memory cell and the second non-volatile memory cells are in the state that is not powered, the storage of the second non-volatile memory cells System operation data before the instruction of acquisition first in second non-volatile memory cells.

In step s 2, the second state for not running operating system is switched to based on the first instruction, electronic equipment, it is specific next Say, i.e., the standby command obtained according to step S1, notebook computer switches to the S3 that ACPI specification defines State, under S3 states, the first non-volatile memory cells 101 of notebook computer namely mechanical hard disk, solid state hard disc etc. are outer Portion's memory, and the internal storage such as the second non-volatile memory cells 102 namely resistance internal memory are in and are not powered state, but Because the second non-volatile memory cells 102 are not in the case where being powered state, it becomes possible to data are preserved, without being deposited as volatibility Storage unit, as DRAM needs continued power to preserve data, so pen provided in an embodiment of the present invention Remember that this computer need not carry out continued power to the second non-volatile memory cells 102 in the standby state, it is achieved thereby that section The technique effect of the energy consumption of notebook computer is saved.

It can be seen from above-mentioned part due to when the electronic equipments such as notebook computer are standby will not it is non-to second easily The property lost memory cell is powered, it becomes possible to the purpose for preserving the data in the second non-volatile memory cells is realized, so as to real The technique effect for the energy consumption for reducing the electronic equipments such as notebook computer is showed, for notebook computer, smart mobile phone, flat board electricity For the portable electric appts such as brain, by increasing capacitance it is possible to increase the stand-by time of electronic equipment, it is portable electric regularly to avoid user Sub- equipment charge, the time of user is saved, so as to improve Consumer's Experience.

After electronic equipment is switched to by step S2 and not run the second state of operating system, so that electronic equipment The second instruction in the second condition, can be being obtained, and instructed according to second, according to what is stored in the second non-volatile memory cells System operation data, electronic equipment is switched into first state.

Specifically, in the second condition, obtain second instruction, can be notebook computer in the standby state, obtain Instruction is waken up, notebook computer can be instructed according to the wake-up, and first state is switched to by the second state.In actual applications, It can be the wake-up instruction that notebook computer obtains user's input, the wake-up that LAN is sent can also be obtained by network interface Instruction, is not limited herein.

After the second instruction is obtained, you can be instructed according to second, according to what is stored in the second non-volatile memory cells System operation data, electronic equipment is switched into first state, such as can be instructed with notebook computer according to the wake-up of acquisition, read The system operation data stored in the second non-volatile memory cells 102 is taken, it is then that notebook computer is quick by holding state Ground switches to normal operating conditions, just repeats no more herein.

It is can be seen that by above-mentioned part as a result of based on the first instruction, electronic equipment, which switches to, does not run operation Second state of system, wherein the first non-volatile memory cells and the second non-volatile memory cells are in the second condition State is not powered, is in the second non-volatile memory cells before the second non-volatile memory cells storage the first instruction of acquisition System service data, to cause electronic equipment in the second condition, the second instruction is obtained, and instructed according to second, it is non-according to second The system operation data stored in volatile memory cell, electronic equipment is switched to the technical scheme of first state, wherein the The holding state of the normal operating condition of one state namely electronic equipment, the second state namely electronic equipment, electronic equipment is in base After the first instruction switches to the second state by first state, it is not necessary to non-volatile to the first non-volatile memory cells and second Property memory cell be persistently powered, it becomes possible to according to second instruct, switch to first state from the second state, that is to say, that Electronic equipment will not power to internal memory in the standby state, thus solve in the prior art electronic equipment in holding state still Internal memory can so be powered, not lost with preserving the service data of electronic equipment, so as to electronic equipment be caused persistently to consume electricity Technical problem, realize save electronic equipment energy consumption technique effect.

Further, due to will not be to the second non-volatile memories list when the electronic equipments such as notebook computer are standby Member is powered, it becomes possible to the purpose for preserving the data in the second non-volatile memory cells is realized, it is achieved thereby that reducing The technique effect of the energy consumption of the electronic equipments such as notebook computer, it is portable for notebook computer, smart mobile phone, tablet personal computer etc. For electronic equipment, by increasing capacitance it is possible to increase the stand-by time of electronic equipment, avoid user and charged regularly for portable electric appts, The time of user is saved, so as to improve Consumer's Experience.

In specific implementation process, please continue to refer to Fig. 1, electronic equipment provided in an embodiment of the present invention also includes volatibility Memory cell 104, the 3rd read or write speed of volatile memory cell 104 are higher than the first of the first non-volatile memory cells 101 Read or write speed, volatile memory cell 104 can at least store at least part system operation data in operating system, its In, volatile memory cell 104 is in and is powered state in the first state, in the second condition volatile memory cell 104 In not being powered state.

Specifically, volatile memory cell 104 belongs to the internal storage of notebook computer, can be specifically dynamic with Machine stored memory(Dynamic Random Access Memory, DRAM)Or SRAM(Static Random Access Memory, SRAM)Etc., it is not limited herein.The first state of operation operating system is in notebook computer When, volatile memory cell 104 can at least store at least part system during the operating system in operating system System service data.

When notebook computer is in first state, volatile memory cell 104 is in and is powered state, in notebook electricity Brain is in first state and volatile memory cell 104 is in when being powered state, and volatile memory cell 104 can store behaviour Make at least part system operation data during system operation, when notebook computer is in the second state, volatile memory cell 104 in not being powered state, in the case where not being powered state, volatile memory cell 104 can not data storage, therefore volatibility The data of the memory storage of memory cell 104 are " volatibility ", and the second non-volatile memory cells 102 are either in and are powered State is not still powered state, can storage program area operation when at least part system operation data, therefore second The data of the memory storage of non-volatile memory cells 102 are " non-volatile ".

In actual applications, the second read or write speed of the second non-volatile memory cells 102 can be equal to volatile storage 3rd read or write speed of unit 104, can also be differed, certainly, if the second read or write speed differs with the 3rd read or write speed, Notebook computer needs to use elastic memory techniques(FMT, Flex Memory Technology), by the second read or write speed and the Three read or write speeds are adjusted to the same(It is adjusted to speed relatively low in both)The normal operation of notebook computer can be ensured, because This is in order to avoid the second read or write speed of the second non-volatile memory cells 102 and the 3rd read-write of volatile memory cell 104 The wasting of resources that speed is differed and brought, preferable scheme are that the second read or write speed is identical with the 3rd read or write speed.

In specific implementation process, information processing method provided in an embodiment of the present invention also includes following control electronics At least two modes into three kinds of modes of first state:

The first:It is non-that the source program data of the operating system stored in first non-volatile memory cells is copied to second In volatile memory cell and run, to cause electronic equipment to enter first state.

For example, when notebook computer starts, the bootstrap such as basic input output system of notebook computer(Basic Input Output System, BIOS)It can first copy in the second non-volatile memory cells 102 and run, it is then substantially defeated Enter output system guiding notebook computer by operating system, for example, Windows systems source program data copy to second it is non-easily In the property lost memory cell 102 and run, so that notebook computer enters first state, just repeat no more herein.

Second:The source program data of the operating system stored in first non-volatile memory cells is copied into volatibility In memory cell and run, to cause electronic equipment to enter first state, this mode opens with electronic equipment in the prior art Dynamic process is the same, just repeats no more herein.

For example, when notebook computer starts, the bootstrap such as basic input output system of notebook computer(Basic Input Output System, BIOS)It can first copy in volatile memory cell 104 and run, then basic input and output Operating system, such as the source program data of Windows systems are copied to volatile memory cell by System guides notebook computer In 104 and run, so that notebook computer enters first state, just repeat no more herein.

The third:It is non-that the source program data of the operating system stored in first non-volatile memory cells is copied to second In volatile memory cell and volatile memory cell and run, to cause electronic equipment to enter first state, for example, can be The interior check figure of storage system service data more part and parcel data such as operating system in second non-volatile memory cells 102 According to, and the driver of the more unessential partial data such as device such as video card, keyboard is stored in volatile memory cell 104 Etc., so that notebook computer enters the first state of operation operating system.It should be noted that in system operation data More part and parcel data and more unessential partial data, can be as the technical staff belonging to this area or by user It is configured according to actual conditions, to meet the needs of actual conditions, is just repeated no more herein.

It is can be seen that by above-mentioned part as a result of three kinds of modes for entering first state including control electronics In at least two modes technical scheme so that electronic equipment can at least pass through two ways and enter operation operating system First state, start electronic equipment for user and provide diversified selection, also, uncontrollable electronics in one way in which When equipment enters the first state of operation operating system, the first party of operation operating system can be entered by another way Formula, so as to improve the reliability of electronic equipment.

Certainly, in actual applications, in addition to three kinds of modes that above-mentioned part is introduced, in order to improve electronic equipment Toggle speed, the time of user is saved, the embodiment of the present invention also provides the mode that a kind of control electronics enter first state:

First, the kernel data of operating system is stored in the second non-volatile memory cells 102 in advance, kernel is one The core of individual operating system, it is that hardware based first layer software expands, there is provided the most basic function of operating system, be responsible for pipe Process, internal memory, device driver, file and the network system of reason system, decide the performance and stability of system.

Because the data in the second non-volatile memory cells 102 remain able to preserve in power-off, so electronic equipment exists The kernel data stored in the second non-volatile memory cells 102 can be directly run during startup, hence into first state, section The sub- equipment of power saving needs first bootload program, then by bootstrap the source program data of operating system to be copied into second non- The two steps in volatile memory cell 102 or volatile memory cell 104, so as to improve electronic equipment into first The speed of state, and dynamic RAM can be with delay start, without initializing it when dynamic RAM Just bootload program afterwards, so as to quickly improve the speed that electronic equipment enters first state.

For example, so that one is provided with the smart mobile phone of Android system as an example, the smart mobile phone can be used Android system The kernel data of linux system be stored in the second non-volatile memory cells 102, so, starting in the smart mobile phone When can directly run kernel data in the second non-volatile memory cells 102, so as to control the smart mobile phone to enter first State, without by the bootstrap of smart mobile phone, namely system start-up loading device(Bootloader)It is non-to copy to second Run in volatile memory cell 102 or volatile memory cell 104, it is not required that again from the first non-volatile memory cells The source program data of the operating system is copied into the second non-volatile memory cells 102 or volatile memory cell 104 in 101 Middle operation, so as to improve the speed that smart mobile phone enters first state, save the time that smart mobile phone enters first state.

Of course, while using the quick Starting mode of electronic equipment, in order to ensure the reliability of electronic equipment, together When there are some special functions may to need provide by the bootstrap of the electronic equipment, such as notebook computer First boot disk order can be adjusted in the basic input output system of notebook computer, for another example using the intelligence of Android system , it is necessary to use quick startup function by the system start-up loading device of smart mobile phone exemplified by energy mobile phone(Fastboot), or need Reforestation practices are entered by system start-up loading device(Recovery)Rather than normal mode of operation etc., so the present invention is real Apply example and the mode that a kind of control electronics enter first state is also provided:

So that electronic equipment is specially the smart mobile phone of Android system as an example, due to the second non-volatile memory cells 102 Unit storage price is higher, it is possible to volatile memory cell 104 is initialized, then by the bootstrap of the smart mobile phone, Namely system start-up loading device copies to volatile memory cell 104 and run, if necessary by the system start-up loading device Some special functions are enabled, such as foregoing described quick startup function, then can be used at this moment, if need not, The source program data of guiding Android system is copied in the second non-volatile memory cells 102 and run, so as to guide intelligent hand Android system is loaded into non-volatile memory cells 102 by machine, and it is non-easily to avoid system start-up loading device occupancy second The problem of valuable memory space of the property lost memory cell 102.

In specific implementation process, the first non-volatile memory cells are also stored with the source program of at least one application program Data, when electronic equipment is in first state, it is non-volatile that system operation data during operating system is stored in second In memory cell, application service data storage when any one at least one application program or multiple application programs are run In volatile memory cell.

Specifically, the first non-volatile memory cells 101 of notebook computer such as mechanical hard disk, solid state hard disc is outside The source program data of at least one application program is also stored with memory, the first of operation operating system is in electronic equipment During state, system operation data during operating system is stored in the second non-volatile memory cells 102, and this is at least one Application service data when any one or multiple application programs in application program are run is stored in volatile memory cell In 104.

Certainly, in actual applications, appoint at least one application program stored in the first non-volatile memory cells 101 Application service data when one or more application program of anticipating is run can also be stored in the second non-volatile memory cells 102 In, that is to say, that the running position of at least one application program stored in the first non-volatile memory cells 101 can be Two non-volatile memory cells 102 and/or volatile memory cell 104, that is to say, that be in operation in notebook computer and operate When the first state of system, the operating system can be corresponding by the range of physical addresses of the first non-volatile memory cells 101 Memory space, memory space corresponding with the range of physical addresses of volatile memory cell 104 carries out as an entirety Use, just repeat no more herein.

In specific implementation process, because the unit price valency of current second non-volatile memory cells 102 is higher, also The effect of volatile memory cell 104 can not be substituted completely, its memory capacity is smaller, so volatile memory cell 104 is deposited The memory capacity of the second non-volatile memory cells 102 can be more than by storing up capacity, on the other hand, from the operating system of notebook computer From the point of view of data storage this angle during operation, the second non-volatile memory cells 102 can be used for storage program area operation When system operation data in more part and parcel system operation data, and some more important application programs are as killed virus The application service data of software etc., while volatile memory cell 104 can be used for storing other common application programs Using service data, that is to say, that when notebook computer is in the first state of operation operating system, second non-volatile deposits The memory capacity of storage unit 102 meets capacity required during operating system, it is, of course, also possible to suitably increase by one A little more important application programs capacity required when running, that is to say, that in general, operation is in notebook computer During the first state of operating system, when the system operation data during operating system of notebook computer is run with application program The data volume sum using service data be more than the second non-volatile memory cells 102 memory capacity.

In ensuing part, will according to when notebook computer is in first state, when application program is run should With the difference of the storage address of service data, to introduce the technical scheme in the embodiment of the present invention respectively.

Mode(1):A system operation data when storage program area is run in second non-volatile memory cells 102, Application service data when only storage application program is run in volatile memory cell 104.

In specific implementation process, after electronic equipment is in the first state of operation operating system, first is being obtained Before instruction, or according to the system operation data stored in the second non-volatile memory cells, electronic equipment is switched to After one state, information processing method provided in an embodiment of the present invention also includes:The 3rd instruction is obtained, the first instruction, second refer to Order and the 3rd instruction are different between two;Based on the 3rd instruction, electronic equipment switches to the third state for not running operating system, its In in a third condition the first non-volatile memory cells, the second non-volatile memory cells and volatile memory cell be in not State is powered, the second non-volatile memory cells are not stored before acquisition the 3rd instructs is in the second non-volatile memory cells System service data;In a third condition, the 4th instruction is obtained, the first instruction, the second instruction, the 3rd are instructed with the 4th instruction two-by-two Differ;Based on the 4th instruction, electronic equipment switches to the 4th state of operation operating system, wherein under the 4th state, the System operation data in two non-volatile memory cells during storage program area operation, the first non-volatile memory cells and Second non-volatile memory cells are in the state that is powered, and volatile memory cell is in and is not powered state, to cause electronics Any application program at least one application program can be deleted or unloaded to equipment.

Specifically, after notebook computer is in the first state of operation operating system, the first instruction is being obtained I.e. before standby command, or notebook computer is according to the system operation number stored in the second non-volatile memory cells 102 According to after electronic equipment is switched into first state, information processing method provided in an embodiment of the present invention also includes:

The 3rd instruction is obtained, the first instruction, the second instruction and the 3rd instruction are different between two, and the 3rd instruction can be specifically One shutdown command;

After the 3rd instruction is obtained, notebook computer can be based on the 3rd instruction, switch to and do not run the of operating system Three condition, namely off-mode, namely the S5 states that ACPI specification defines, in a third condition, first Non-volatile memory cells 101, the second non-volatile memory cells 102 and volatile memory cell 104 are in and are not powered shape State, certainly, processing unit 103 are also at and are not powered state, meanwhile, the second non-volatile memory cells 102 do not store acquisition System operation data before 3rd instruction in the second non-volatile memory cells 102, namely the second non-volatile memory cells 102 In data be cleared in a third condition, certainly, the data in volatile memory cell 104 can not when not being powered Continue to keep, namely the data in volatile memory cell 104 can equally be cleared in a third condition, just repeat no more herein .

In a third condition, the 4th instruction is obtained, the first instruction, the second instruction, the 3rd are instructed with the 4th instruction two neither Identical, the 4th instruction can be specifically the instruction for controlling notebook computer to enter safe mode;

After the 4th instruction is obtained, notebook computer can be based on the 4th instruction, switch to the of operation operating system Four states, under the 4th state, system when being run when a storage program area is run in the second non-volatile memory cells 102 Service data, without storing application service data during application program operation, meanwhile, the first non-volatile memory cells 101 The state that is powered is in the second non-volatile memory cells 102, volatile memory cell 104 is in and is not powered state, when So, volatile memory cell 104 can also be in the state that is not initialised, so as to avoid during because of application program operation It is stored in using service data on volatile memory cell and can not be deleted or unload, so that notebook computer can Any one deleted or unloaded at least one application program of the memory storage of the first non-volatile memory cells 101 applies journey Sequence, improve the security of the electronic equipments such as notebook computer.

It is can be seen that by above-mentioned part as a result of based on the 4th instruction, electronic equipment switches to operation operation system 4th state of system, wherein under the 4th state, when a storage program area is run in the second non-volatile memory cells is Service data, the first non-volatile memory cells and the second non-volatile memory cells unite in state is powered, volatibility is deposited Storage unit is in the technical scheme for not being powered state, can avoid the application service data storage because when application program is run It can not be deleted or unload on volatile memory cell, so that notebook computer can delete or unload first Any one application program at least one application program of non-volatile memory cells memory storage, improves electronic equipment Security.

The electronic equipments such as the control notebook computer except above-mentioned introduction, which enter safe mode deletion or unloaded, applies journey Outside sequence, application program can also can be deleted or unloaded come notebook computer by such a way:

After electronic equipment is in the first state of operation operating system, before the first instruction is obtained, or in basis The system operation data stored in second non-volatile memory cells, after electronic equipment is switched into first state, obtain the Five instructions, namely when notebook computer is in normal operating conditions, the 5th instruction is obtained, the 5th instruction can be control The instruction that notebook computer is stopped power supply to volatile memory cell;

After the 5th instruction is obtained, notebook computer can be based on the 5th instruction, stop powering to volatile memory cell, Then so that the application service data stored in 104 in volatile memory cell disappears, namely the operation of application program can be cancelled, So that electronic equipment enters the 5th state, it is possible to enables electronic equipment to delete or unload and at least one applies journey Any application program in sequence, is just repeated no more herein, wherein in a fifth state, the first non-volatile memory cells and Two non-volatile memory cells are in the state that is powered, and non-volatile memory cells are in and are not powered state, herein just no longer Repeat.

Mode(2)System operation data in second non-volatile memory cells 102 during storage program area operation simultaneously Application service data when being run with application program, the application fortune when memory storage application program of volatile memory cell 104 is run Row data.

In specific implementation process, after electronic equipment is in the first state of operation operating system, first is being obtained Before instruction, or according to the system operation data stored in the second non-volatile memory cells, electronic equipment is switched to After one state, information processing method provided in an embodiment of the present invention also includes:It is determined that the first application program run is needed, the The source program data of one application program is stored in the first non-volatile memory cells;According to the first application program, first is determined The first application service data when application program is run is stored in the second non-volatile memory cells or volatile memory cell In.

Specifically will, after being user by the input units such as mouse, keyboard, touch screen one operating instruction of input, After either notebook computer needs the application program of automatic start first by time or other factors triggering, notebook computer The first application program that needs are run is can determine, in actual applications, the source program data of the first application program can deposit Storage can also be stored in other memory cell being connected with notebook computer, example in the first non-volatile memory cells 101 In a mobile hard disk or a webserver, it is not limited herein.

It is determined that after the first application program that needs are run, i.e., the first application can be determined according to the first application program The first application service data when program is run is stored in the second non-volatile memory cells 102 or volatile memory cell In 104.

In specific implementation process, according to the first application program, the first application fortune during the operation of the first application program is determined Row data are stored in the second non-volatile memory cells 102 or in volatile memory cell 104, can be included:Obtain first First storage address label corresponding to application program;According to the storage address described in the first storage address label, first is determined The second non-volatile memory cells 102 are stored in using service data or are stored in volatile memory cell 104;Or applying In the mapping table between the storage address using service data when program and application program are run, search first and apply journey Storage address corresponding to sequence, and the storage address according to corresponding to the first application program, determine that first is stored in using service data Second non-volatile memory cells 102 are stored in volatile memory cell 104.

Specifically, can describe the first application program in the first storage address label corresponding to the first application program The storage location of the first application service data during operation, its storage location can be set or taken down notes manually by user This computer is set automatically according to the authority or required storage size of first application program, is not limited herein; After obtaining the first storage address label, i.e., it can determine that first should according to the storage address of the first storage address label record First when being run with program is stored in the second non-volatile memory cells 102 or is stored in volatile storage using service data In unit 104.

It is, of course, also possible to be by the storage address using service data when application program and application program are run it Between mapping table in, find storage address corresponding to the first application program, and according to corresponding to the first application program Storage address, determine that first is stored in the second non-volatile memory cells or is stored in volatile memory cell using service data In.For example, it is desired to pre-establish pair between the storage address using service data when application program and application program are run The corresponding relation between relation table, such as the storage address of the first application program and the first application service data is answered to be stored in this Mapping table, in actual applications, the mapping table can be established according to some default rules by notebook computer, The mapping table can be established by user oneself, be not limited herein;Then, it is determined that needing the first application program run Afterwards, it is determined that need run the first application program the step for detailed process be described in detail in abovementioned steps, This is just repeated no more;Then, according to the first application program determined, this is found from mapping table and first applies journey Storage address corresponding to sequence;Finally, the storage address according to corresponding to the first application program found from mapping table, really First during fixed first application program operation is stored in the second non-volatile memory cells 102 using service data or is stored in easily In the property lost memory cell 104.

For example, in the present embodiment, can be by the kernel data of the operating system of notebook computer, such as Windows systems The kernel data of system is stored in the second non-volatile memory cells 102, when notebook computer is run, by operating system Core, and some important application programs, such as with superuser right(ROOT)Rank and System Privileges(System)Level Other application program, such as can be some firewall softwares, antivirus software etc., by above-mentioned storage address label or Mapping table, these storage address labels or mapping table can be stored in the second non-volatile memory cells 102, or Person is marked by other means, so as to which the service data storage of kernel process and these important program process be arrived In second non-volatile memory cells 102, meanwhile, weighed by the relatively low application program of other importance, such as with domestic consumer Limit(User)The application program of rank, such as can be Games Software, video software etc., pass through above-mentioned storage address label Either mapping table or it is marked by other means, so as to by the relatively low program process of these importance Service data store into volatile memory cell 104, system kernel be not applied to run in volatile memory cell 104 should With the authority of the second non-volatile memory cells of modification of program 102, that is to say, that is run in volatile memory cell 104 should The data in the second non-volatile memory cells 102 can be accessed with program, but the second non-volatile memories list can not be changed Data in member 102, so, when installing new application program or new application program by automatic running, all only can Run in volatile memory cell 104, without being run in the second non-volatile memory cells 104.

Of course, with mode(1)Described in it is similar, in mode(2)In, it can equally be switched in notebook computer After 4th state, 101 store and application program operation in the first non-volatile memory cells is easily deleted or unloaded When the relatively low application program of the importance that is stored in volatile memory cell 104 of service data, even if having newly install should Gone wrong when application program problematic with program or new is by automatic running, can delete or uninstall, so as to carry The high security of electronic equipment,

By the introduction of the present embodiment, the technical staff belonging to this area can select other suitable according to actual conditions Mode to determine the operation of the first application program when first apply service data, be stored in the second non-volatile memory cells Also it is stored in volatile memory cell 104 in 102, to meet the needs of actual conditions, just repeats no more herein.

In specific implementation process, it is determined that first is stored in the second non-volatile memory cells 102 using service data Or after being stored in volatile memory cell 104, information processing method provided in an embodiment of the present invention also includes:In operation the During one application program, correspondingly it is stored in first in the second non-volatile memory cells 102 or is stored in using service data In volatile memory cell 104.For example, after it is determined that the first service data is stored in the second non-volatile memory cells 102, When the first application program is run, you can first during so that the first application program being run is stored in using service data In second non-volatile memory cells 102;After it is determined that the first service data is stored in volatile memory cell 104, When one application program is run, you can first during so that the first application program being run is stored in volatile using service data In property memory cell 104.

In specific implementation process, the second non-volatile memory cells or storage are being stored in using service data by first After in volatile memory cell, information processing method provided in an embodiment of the present invention also includes:An adjust instruction is obtained, is adjusted The whole storage address instructed for control electronics adjustment the first application service data, and adjust instruction is based on, adjustment first Using the storage address of service data.

Specifically, it can be the running situation of user or notebook computer according to the first application program, generate and be used for The adjust instruction of the storage address of control electronics adjustment the first application service data, and be based on the adjust instruction, adjusts the The storage address of one application service data.

It is specific next based on the adjust instruction, the storage address of the application service data of adjustment first in specific implementation process Say, can be after first is correspondingly stored in the second non-volatile memory cells using service data, by the first application Service data is copied in volatile memory cell 104 from the second non-volatile memory cells 102, and deletes that to be stored in second non- First in volatile memory cell 102 applies service data;Or correspondingly it is being stored in volatibility using service data by first After in memory cell, the second non-volatile memories list is copied to from volatile memory cell 104 using service data by first In member 102, and delete first be stored in volatile memory cell 104 and apply service data.

In actual applications, after notebook computer obtains adjust instruction, can perform in real time and the adjust instruction Corresponding step, for example, after detecting that the first change occurs for the first storage address label, notebook computer can be held immediately Row " is copied in volatile memory cell 104 from the second non-volatile memory cells 102 using service data by first, and deleted Except first be stored in the second non-volatile memory cells 102 applies service data " the step for, certainly, it can now incite somebody to action The adjust instruction is synchronized in foregoing introduced address storage label or mapping table, first should to rerun next time With calling or preserving the result of the adjust instruction when program, also will the adjust instruction be synchronized to foregoing be situated between In the address storage label or mapping table that continue, performed again in the situation for meeting certain condition and " apply service data by first Copied to from the second non-volatile memory cells 102 in volatile memory cell 104, and delete and be stored in second and non-volatile deposit First in storage unit 102 applies service data " the step for, certainly, preferable scheme is first to preserve the knot of the adjust instruction Fruit, such as be saved in the first non-volatile memory cells 101, then performed again in the case where meeting some requirements with being somebody's turn to do Change step correspondingly, for example, it may be determining that the first application service data when the first application program is run does not become During change, or when being to determine notebook computer switching state, then perform and " non-volatile deposit the first application service data from second Storage unit 102 is copied in volatile memory cell 104, and deletes the be stored in the second non-volatile memory cells 102 One applies service data " the step for, it is not limited herein.

It is non-first application service data is copied into second from volatile memory cell 104 in specific implementation process In volatile memory cell 102, and deletion is stored in after the first application service data in volatile memory cell 104, this The information processing method that inventive embodiments provide also includes:Needing to revert to volatile storage list using service data by first In member 104, such as that from volatile memory cell 104 first application service data is copied into second is non-volatile for notebook computer It is due to that notebook computer can stop power supply to volatile memory cell 104 in the standby state in memory cell 102, so will First copies in the second non-volatile memory cells 102 using service data, then enters normal work shape in notebook computer After state, that is, need to revert to first in volatile memory cell 104 using service data, then second non-volatile can be deposited First in storage unit 102 copies in volatile memory cell 104 using service data, and deletes the second non-volatile memories First in unit 102 applies service data.

Need to illustrate again, information processing method provided in an embodiment of the present invention can not only be applied to notebook electricity On brain, it can also apply on the electronic equipments such as smart mobile phone, tablet personal computer, it is succinct for specification herein, it is just no longer superfluous State.

Based on same inventive concept, the embodiment of the present invention also provides a kind of electronic equipment, please continue to refer to Fig. 1, the electronics Equipment includes:First non-volatile memory cells 101, the first non-volatile memory cells 101 can at least store electronic equipment The source program data of operating system;

First non-volatile memory cells 102, it is connected with the first non-volatile memory cells 101, first non-volatile deposits Storage unit 102 at least can in operating system storage program area run when at least part system operation data, first First read or write speed of non-volatile memory cells 101 is less than the second read or write speed of the first non-volatile memory cells 102;

Processing unit 103, respectively with the first non-volatile memory cells 101 and the phase of the first non-volatile memory cells 102 Even, for when electronic equipment is in the first state for running operating system, obtaining the first instruction, wherein, in the first state First non-volatile memory cells 101 and the first non-volatile memory cells 102, which are in, is powered state, and first is non-volatile Memory cell 101 is at least stored with the source program data of the operating system of electronic equipment, the first non-volatile memory cells 102 to At least part system operation data during few storage program area operation, and based on the first instruction, electronic equipment, which switches to, not to be transported Second state of row operating system, wherein the first non-volatile memory cells 101 and first non-volatile are deposited in the second condition Storage unit 102 is in the state that is not powered, and first is non-volatile before the first non-volatile memory cells 102 storage the first instruction of acquisition Property memory cell 102 in system operation data, to cause electronic equipment in the second condition, obtain the second instruction, and foundation Second instruction, according to the system operation data stored in the first non-volatile memory cells 102, first is switched to by electronic equipment State.

In specific implementation process, processing unit 103 is additionally operable to be in the first shape of operation operating system in electronic equipment Before state, by least a portion number in the source program data of the operating system stored in the first non-volatile memory cells 101 According to copying in the first non-volatile memory cells 102 and run, and the service data of at least a portion data is stored in In one non-volatile memory cells 102, to cause electronic equipment to enter first state.

In specific implementation process, electronic equipment also includes volatile memory cell 104, and volatile memory cell 104 divides It is not connected with the first non-volatile memory cells 101, the second non-volatile memory cells 102 and processing unit 103, volatibility is deposited 3rd read or write speed of storage unit 104 is higher than the first read or write speed, volatile memory cell 104 in operating system at least At least part system operation data can be stored, wherein, volatile memory cell 104 is in and is powered state in the first state, Volatile memory cell 104 is in and is not powered state in the second condition.

In specific implementation process, at least one application program is also stored with the first non-volatile memory cells 101 Source program data, when electronic equipment is in first state, it is non-that system operation data during operating system is stored in first In volatile memory cell 102, application fortune when any one at least one application program or multiple application programs are run Row data are stored in volatile memory cell 104.

In specific implementation process, processing unit 103 is additionally operable to when electronic equipment is in first state, is obtaining first Before instruction, or according to the system operation data stored in the first non-volatile memory cells 102, electronic equipment is switched to After first state, the 3rd instruction is obtained;And the 3rd shape for not running operating system is switched to based on the 3rd instruction, electronic equipment State, wherein the first non-volatile memory cells 101, the first non-volatile memory cells 102 and volatibility are deposited in a third condition Storage unit is in and is not powered state, and it is non-volatile that the first non-volatile memory cells 102 do not store before the instruction of acquisition the 3rd first Property memory cell 102 in system operation data, and in a third condition, obtain the 4th instruction, and based on the 4th instruction, electronics Equipment switches to the 4th state of operation operating system, wherein under the 4th state, in the first non-volatile memory cells 102 only System operation data when storage program area is run, the first non-volatile memory cells 101 and the first non-volatile memories list Member 102 is in the state that is powered, and volatile memory cell 104 is in and is not powered state, to enable electronic equipment to delete Or any application program at least one application program of unloading.

In specific implementation process, processing unit 103 is additionally operable to be in the first shape of operation operating system in electronic equipment After state, before the first instruction is obtained, or according to the system operation number stored in the second non-volatile memory cells 102 According to, after electronic equipment is switched into first state, the 5th instruction is obtained, and instructed based on the 5th, stop to volatile storage Unit 104 is powered so that electronic equipment enters the 5th state, to enable electronic equipment to delete or unload at least one application Any application program in program, wherein in a fifth state, the first non-volatile memory cells 101 and second non-volatile are deposited Storage unit 102 is in the state that is powered, and volatile memory cell 104 is in and is not powered state.

In specific implementation process, processing unit 103 is additionally operable to be in the first shape of operation operating system in electronic equipment After state, before the first instruction is obtained, or according to the system operation number stored in the first non-volatile memory cells 102 According to after electronic equipment is switched into first state, it is determined that needing the first application program run, the source journey of the first application program Ordinal number evidence is stored in the first non-volatile memory cells 101, and according to the first application program, determines that the first application program is run When first be stored in the first non-volatile memory cells 102 or in volatile memory cell 104 using service data.

In specific implementation process, processing unit 103 is additionally operable to obtain the first storage address corresponding to the first application program Label, and the storage address according to described in the first storage address label, it is non-to determine that the first application service data is stored in first Volatile memory cell 102 is stored in volatile memory cell 104, or answering when application program and application program are run With in the mapping table between the storage address of service data, storage address corresponding to the first application program is searched, and according to Storage address corresponding to first application program, determine that first is stored in the second non-volatile memory cells or deposits using service data Storage is in volatile memory cell.

In specific implementation process, processing unit 103 is additionally operable to it is determined that first using service data, to be stored in first non- Volatile memory cell 102 or after being stored in volatile memory cell 104, when running the first application program, by first Correspondingly it is stored in the second non-volatile memory cells 102 or is stored in volatile memory cell 104 using service data.

In specific implementation process, processing unit 103 be additionally operable to by first using service data be stored in first it is non-easily The property lost memory cell 102 or after being stored in volatile memory cell 104, obtains an adjust instruction, adjust instruction is used to control The storage address of the first application of electronic equipment adjustment service data processed, and adjust instruction is based on, service data is applied in adjustment first Storage address.

In specific implementation process, processing unit 103 is additionally operable to applying service data from volatile storage list by first Member 104 is copied in the first non-volatile memory cells 102, and is deleted first be stored in volatile memory cell 104 and answered After service data, needing to revert to first in volatile memory cell 104 using service data, it is non-volatile by first Property memory cell 102 in first copy in volatile memory cell 104 using service data, and it is non-volatile to delete first First in memory cell 102 applies service data.

In specific implementation process, processing unit 103 is additionally operable to be in the first shape of operation operating system in electronic equipment Before state, enter first state by least two mode control electronics in following three kinds of modes:

The first:The source program data of the operating system stored in first non-volatile memory cells 101 is copied to In two non-volatile memory cells 102 and run, to cause electronic equipment to enter first state;

Second:The source program data of the operating system stored in first non-volatile memory cells 101 is copied to easily In the property lost memory cell 104 and run, to cause electronic equipment to enter first state;

The third:The source program data of the operating system stored in first non-volatile memory cells 101 is copied to In two non-volatile memory cells 102 and volatile memory cell 104 and run, to cause electronic equipment to enter first state.

Based on same inventive concept, on the other hand the embodiment of the present invention also provides a kind of electronic equipment, refer to Fig. 3, Fig. 3 It is the entity module schematic diagram of electronic equipment provided in an embodiment of the present invention, as shown in figure 3, the electronic equipment includes:Casing 301;

Circuit board 302, it is arranged in casing 301;

First nonvolatile memory 303, is connected with circuit board 302, and the first non-volatile memory cells can at least store The source program data of the operating system of electronic equipment;

Second nonvolatile memory 304, is arranged on circuit board 302, is connected with the first nonvolatile memory 303, Second non-volatile memory cells at least can in operating system storage program area run when at least part system fortune Row data, the first read or write speed of the first non-volatile memory cells are fast less than the second read-write of the second non-volatile memory cells Degree;

Processor 305, it is arranged on circuit board 302, it is non-volatile with the first nonvolatile memory 303 and second respectively Memory 304 is connected, for when electronic equipment is in the first state for running operating system, obtaining the first instruction, wherein, The first nonvolatile memory 303 and the second nonvolatile memory 304, which are in, under first state is powered state, and first is non- Volatile memory 303 is at least stored with the source program data of the operating system of electronic equipment, the second nonvolatile memory 304 At least part system operation data when at least storage program area is run, and switched to not based on the first instruction, electronic equipment The second state of operating system is run, wherein the first nonvolatile memory 303 and second non-volatile is deposited in the second condition Reservoir 304 is in and is not powered state, and the storage of the second nonvolatile memory 304 obtains before the first instruction second and non-volatile deposited System operation data in reservoir 304, and in the second condition, the second instruction is obtained, and instructed according to second, it is non-according to second The system operation data stored in volatile memory 304, electronic equipment is switched into first state.

In specific implementation process, electronic equipment also includes volatile memory 306, volatile memory 306 respectively with First nonvolatile memory 303, the second nonvolatile memory 304 are connected with the processor 305, volatile memory 306 the 3rd read or write speed is higher than the first read or write speed, volatile memory 306 can at least be stored in operating system to Small part system operation data, wherein, volatile memory 306 is in and is powered state in the first state, in the second state Lower volatile memory 306 is in and is not powered state.

The information processing method in electronic equipment and previous embodiment in the present embodiment is based under same inventive concept Two aspect, above the implementation process of method is being described in detail, so those skilled in the art can basis The structure and implementation process of the electronic equipment described above being apparent from the present embodiment, it is succinct for specification, herein Just repeat no more.

Technical scheme in the embodiments of the present invention, at least has the following technical effect that or advantage:

1st, the second state for not running operating system is switched to as a result of based on the first instruction, electronic equipment, wherein The first non-volatile memory cells and the second non-volatile memory cells, which are in, in the second condition is not powered state, and second is non- System operation data before volatile memory cell storage the first instruction of acquisition in the second non-volatile memory cells, to cause electricity Sub- equipment in the second condition, obtains the second instruction, and is instructed according to second, is stored according in the second non-volatile memory cells System operation data, electronic equipment switches to the technical scheme of first state, wherein first state namely electronic equipment The holding state of normal operating condition, the second state namely electronic equipment, electronic equipment are instructed by first state based on first After switching to the second state, it is not necessary to which the first non-volatile memory cells and the second non-volatile memory cells are persistently supplied Electricity, it becomes possible to instructed according to second, switch to first state from the second state, that is to say, that electronic equipment is in the standby state Internal memory will not be powered, so solving in the prior art, electronic equipment still can power in holding state to internal memory, to protect The service data for depositing electronic equipment is not lost, and so as to which electronic equipment can be caused persistently to consume the technical problem of electricity, realizes section Save the technique effect of the energy consumption of electronic equipment.

2nd, due to will not be carried out when the electronic equipments such as notebook computer are standby to the second non-volatile memory cells Power supply, it becomes possible to the purpose for preserving the data in the second non-volatile memory cells is realized, it is achieved thereby that reducing notebook The technique effect of the energy consumption of the electronic equipments such as computer, set for portable electronics such as notebook computer, smart mobile phone, tablet personal computers For standby, by increasing capacitance it is possible to increase the stand-by time of electronic equipment, avoid user and charged regularly for portable electric appts, saved The time of user, so as to improve Consumer's Experience.

3rd, the 4th state of operation operating system is switched to as a result of based on the 4th instruction, electronic equipment, wherein Under 4th state, a system operation data when storage program area is run in the second non-volatile memory cells, first is non-easy The property lost memory cell and the second non-volatile memory cells are in the state that is powered, and volatile memory cell is in and is not powered shape The technical scheme of state, can avoid because application program operation when application service data be stored on volatile memory cell and It can not be deleted or unload, so that the first non-volatile memory cells internal memory can be deleted or unloaded to notebook computer Any one application program at least one application program of storage, improve the security of electronic equipment.

4th, as a result of including controlling the electronic equipment at least two in three kinds of modes of the first state The technical scheme of kind mode so that electronic equipment can at least enter the first state of operation operating system by two ways, Start electronic equipment for user and provide diversified selection, also, uncontrollable electronic equipment enters in one way in which When running the first state of operating system, the first method of operation operating system can be entered by another way, so as to carry The high reliability of electronic equipment.

It should be understood by those skilled in the art that, embodiments of the invention can be provided as method, system or computer program Product.Therefore, the present invention can use the reality in terms of complete hardware embodiment, complete software embodiment or combination software and hardware Apply the form of example.Moreover, the present invention can use the computer for wherein including computer usable program code in one or more Usable storage medium(Including but not limited to magnetic disk storage, CD-ROM, optical memory etc.)The computer program production of upper implementation The form of product.

The present invention is with reference to method according to embodiments of the present invention, equipment(System)And the flow of computer program product Figure and/or block diagram describe.It should be understood that can be by every first-class in computer program instructions implementation process figure and/or block diagram Journey and/or the flow in square frame and flow chart and/or block diagram and/or the combination of square frame.These computer programs can be provided The processors of all-purpose computer, special-purpose computer, Embedded Processor or other programmable data processing devices is instructed to produce A raw machine so that produced by the instruction of computer or the computing device of other programmable data processing devices for real The device for the function of being specified in present one flow of flow chart or one square frame of multiple flows and/or block diagram or multiple square frames.

These computer program instructions, which may be alternatively stored in, can guide computer or other programmable data processing devices with spy Determine in the computer-readable memory that mode works so that the instruction being stored in the computer-readable memory, which produces, to be included referring to Make the manufacture of device, the command device realize in one flow of flow chart or multiple flows and/or one square frame of block diagram or The function of being specified in multiple square frames.

These computer program instructions can be also loaded into computer or other programmable data processing devices so that counted Series of operation steps is performed on calculation machine or other programmable devices to produce computer implemented processing, so as in computer or The instruction performed on other programmable devices is provided for realizing in one flow of flow chart or multiple flows and/or block diagram one The step of function of being specified in individual square frame or multiple square frames.

These computer program instructions can be also loaded into computer or other programmable data processing devices so that counted Series of operation steps is performed on calculation machine or other programmable devices to produce computer implemented processing, so as in computer or The instruction performed on other programmable devices is provided for realizing in one flow of flow chart or multiple flows and/or block diagram one The step of function of being specified in individual square frame or multiple square frames.

Specifically, computer program instructions can be stored in corresponding to the information processing method in the embodiment of the present application In the storage mediums such as CD, hard disk, USB flash disk, when computer program instructions quilt corresponding with information processing method in storage medium When one electronic equipment reads or is performed, comprise the following steps:

When the electronic equipment is in the first state of operation operating system, the first instruction is obtained, wherein, described the First non-volatile memory cells and second non-volatile memory cells, which are in, under one state is powered state, and institute The source program data that the first non-volatile memory cells are at least stored with the operating system of the electronic equipment is stated, described second is non- Volatile memory cell at least stores at least part system operation data during the operating system;

Based on the described first instruction, the electronic equipment switches to the second state for not running the operating system, wherein First non-volatile memory cells and second non-volatile memory cells, which are in, in said second condition is not supplied Electricity condition, the second non-volatile memory cells storage obtain second non-volatile memory cells before first instruction In the system operation data;

In said second condition, the second instruction is obtained;

According to the described second instruction, according to the system operation number stored in second non-volatile memory cells According to the electronic equipment is switched into the first state.

Alternatively, other computer instruction is also stored with the storage medium, these computer instructions are to walk Suddenly:It is performed, includes when executed as follows before the first state for running the operating system is in the electronic equipment Step:

By at least one in the source program data of the operating system stored in first non-volatile memory cells Partial data is copied in second non-volatile memory cells and run, and by the operation number of at least a portion data According to being stored in second non-volatile memory cells, to cause the electronic equipment to enter the first state.

Alternatively, the electronic equipment also includes volatile memory cell, the 3rd read-write of the volatile memory cell Speed is higher than first read or write speed, and the volatile memory cell can at least store described in the operating system At least part system operation data, wherein, the volatile memory cell is in and is powered state in said first condition, The volatile memory cell is in and is not powered state under second state.

Alternatively, the source program number of at least one application program is also stored with first non-volatile memory cells According to when the electronic equipment is in the first state, the system operation data during operating system is stored in institute State in the second non-volatile memory cells, when any one at least one application program or multiple application programs are run Application service data be stored in the volatile memory cell.

Alternatively, when the electronic equipment is in the first state, the system operation data is transported with the application The data volume sum of row data is more than the memory capacity of second non-volatile memory cells.

Alternatively, other computer instruction is also stored with the storage medium, these computer instructions are to walk Suddenly:After the electronic equipment is in the first state of operation operating system, before the acquisition first instruction, or Described according to the system operation data stored in second non-volatile memory cells, the electronic equipment is switched It is performed after to the first state, comprises the following steps when executed:

Obtain the 3rd instruction;

Based on the described 3rd instruction, the electronic equipment switches to the third state for not running the operating system, wherein First non-volatile memory cells, second non-volatile memory cells and the volatibility under the third state Memory cell is in the state that is not powered, and second non-volatile memory cells, which do not store, to be obtained described in before the 3rd instruction The system operation data in second non-volatile memory cells;

Under the third state, the 4th instruction is obtained;

Based on the described 4th instruction, the electronic equipment switches to the 4th state for running the operating system, wherein Under 4th state, the system fortune during operating system is only stored in second non-volatile memory cells Row data, first non-volatile memory cells and second non-volatile memory cells are in and are powered state, described Volatile memory cell be in be not powered state, with enable the electronic equipment delete or unload it is described it is at least one should With any application program in program.

Alternatively, other computer instruction is also stored with the storage medium, these computer instructions are to walk Suddenly:After the electronic equipment is in the first state of operation operating system, before the acquisition first instruction, or Described according to the system operation data stored in second non-volatile memory cells, the electronic equipment is switched It is performed after to the first state, comprises the following steps when executed:

It is determined that need the first application program run;

According to first application program, determine that the first application service data during the first application program operation stores In second non-volatile memory cells or in the volatile memory cell.

Alternatively, other computer instruction is also stored with the storage medium, these computer instructions are to walk Suddenly:It is described according to first application program, determine that the first application service data during the first application program operation stores In second non-volatile memory cells or in the volatile memory cell, comprise the following steps when executed:

Obtain the first storage address label corresponding to first application program;

According to the storage address described in the first storage address label, determine that the first application service data stores In second non-volatile memory cells or it is stored in the volatile memory cell.

Alternatively, other computer instruction is also stored with the storage medium, these computer instructions are to walk Suddenly:Determine that described first applies service data to be stored in second non-volatile memory cells or be stored in described easy described It is performed after in the property lost memory cell, comprises the following steps when executed:When running first application program, by institute State first and be correspondingly stored in second non-volatile memory cells or be stored in the volatile storage using service data In unit.

Alternatively, other computer instruction is also stored with the storage medium, these computer instructions are to walk Suddenly:Service data is applied to be stored in second non-volatile memory cells or be stored in described volatile by described first described Property memory cell in after be performed, comprise the following steps when executed:

By described first the volatile storage is copied to using service data from second non-volatile memory cells In unit, and delete described first be stored in second non-volatile memory cells and apply service data;Or

By described first second non-volatile memories are copied to using service data from the volatile memory cell In unit, and delete described first be stored in the volatile memory cell and apply service data.

Alternatively, other computer instruction is also stored with the storage medium, these computer instructions are to walk Suddenly:Described second non-volatile memories are copied to by described first from the volatile memory cell using service data In unit, and delete the first application service data being stored in the volatile memory cell and be performed afterwards, in quilt Comprise the following steps during execution:

Needing to revert to described first in the volatile memory cell using service data, it is non-easy by described second Described first in the property lost memory cell copies in the volatile memory cell using service data, and deletes described second Described first in non-volatile memory cells applies service data.

Alternatively, other computer instruction is also stored with the storage medium, these computer instructions are to walk Suddenly:Service data is applied to be stored in second non-volatile memory cells or be stored in described volatile by described first described Property memory cell in after, described first is copied to from second non-volatile memory cells using service data described Described first is copied to using service data from the volatile memory cell in the volatile memory cell or described It is performed before in second non-volatile memory cells, comprises the following steps when executed:

Detect whether the first storage address label changes;

Wherein, when the first change occurs for the first storage address label, first change shows that described first deposits The storage address described in storage address tag is replaced by the volatile storage by second non-volatile memory cells Unit, perform step:Described first application service data is copied to from second non-volatile memory cells described volatile Property memory cell in, and delete be stored in second non-volatile memory cells described first apply service data;

When the second change occurs for the first storage address label, second change shows first storage address The storage address described in label is replaced by second non-volatile memory cells by the volatile memory cell, holds Row step:By described first the second non-volatile memories list is copied to using service data from the volatile memory cell In member, and delete described first be stored in the volatile memory cell and apply service data.

Alternatively, other computer instruction is also stored with the storage medium, these computer instructions are to walk Suddenly:It is performed before the electronic equipment is in the first state of operation operating system, comprises the following steps when executed:

The source program data of the operating system stored in first non-volatile memory cells is copied to described In second non-volatile memory cells and/or the volatile memory cell and run, to cause the electronic equipment to enter institute State first state.

Obviously, those skilled in the art can carry out the essence of various changes and modification without departing from the present invention to the present invention God and scope.So, if these modifications and variations of the present invention belong to the scope of the claims in the present invention and its equivalent technologies Within, then the present invention is also intended to comprising including these changes and modification.

Claims (29)

1. a kind of information processing method, applied to electronic equipment, the electronic equipment include the first non-volatile memory cells and Second non-volatile memory cells, the first read or write speed of first non-volatile memory cells are non-volatile less than described second Second read or write speed of property memory cell, and first non-volatile memory cells at least can storage program area source program Data, when second non-volatile memory cells at least can store the operating system in the operating system At least part system operation data, methods described includes:
When the electronic equipment is in the first state of operation operating system, the first instruction is obtained, wherein, in first shape First non-volatile memory cells and second non-volatile memory cells are in the state that is powered under state, and described the One non-volatile memory cells are at least stored with the source program data of the operating system of the electronic equipment, and described second is non-volatile Property memory cell at least stores at least part system operation data during the operating system;
Based on the described first instruction, the electronic equipment switches to the second state for not running the operating system, wherein in institute State first non-volatile memory cells and second non-volatile memory cells under the second state and be in and be not powered shape State, before the second non-volatile memory cells storage acquisition first instruction in second non-volatile memory cells The system operation data, to cause the electronic equipment in said second condition, the second instruction is obtained, and according to described the Two instructions, according to the system operation data stored in second non-volatile memory cells, the electronic equipment is cut Shift to the first state.
2. the method as described in claim 1, it is characterised in that be in the electronic equipment and run the of the operating system Before one state, methods described also includes:
By at least a portion in the source program data of the operating system stored in first non-volatile memory cells Data duplication is into second non-volatile memory cells and runs, and the service data of at least a portion data is deposited Storage is in second non-volatile memory cells, to cause the electronic equipment to enter the first state.
3. the method as described in claim 1, it is characterised in that the electronic equipment also includes volatile memory cell, described 3rd read or write speed of volatile memory cell is higher than first read or write speed, and the volatile memory cell is in the operation At least part system operation data can be at least stored during system operation, wherein, the volatibility in said first condition Memory cell is in and is powered state, and the volatile memory cell is in and is not powered state in said second condition.
4. method as claimed in claim 3, it is characterised in that be also stored with least in first non-volatile memory cells The source program data of one application program, when the electronic equipment is in the first state, during the operating system System operation data be stored in second non-volatile memory cells, any one at least one application program Or the application service data during operation of multiple application programs is stored in the volatile memory cell.
5. method as claimed in claim 4, it is characterised in that described when the electronic equipment is in the first state System operation data is more than the storage of second non-volatile memory cells with the data volume sum using service data Capacity.
6. method as claimed in claim 4, it is characterised in that be in the first shape of operation operating system in the electronic equipment After state, stored before the acquisition first instruction, or described according in second non-volatile memory cells The system operation data, after the electronic equipment is switched into the first state, methods described also includes:
Obtain the 3rd instruction;
Based on the described 3rd instruction, the electronic equipment switches to the third state for not running the operating system, wherein in institute State first non-volatile memory cells under the third state, second non-volatile memory cells and the volatile storage Unit is in the state that is not powered, and second non-volatile memory cells are not stored described second before acquisition the 3rd instruction The system operation data in non-volatile memory cells;
Under the third state, the 4th instruction is obtained;
Based on the described 4th instruction, the electronic equipment switches to the 4th state for running the operating system, wherein described Under 4th state, the system operation number during operating system is only stored in second non-volatile memory cells According to first non-volatile memory cells and second non-volatile memory cells are in and are powered state, described volatile Property memory cell be in and be not powered state, described at least one apply journey to enable the electronic equipment to delete or unload Any application program in sequence.
7. method as claimed in claim 4, it is characterised in that be in the first shape of operation operating system in the electronic equipment After state, stored before the acquisition first instruction, or described according in second non-volatile memory cells The system operation data, after the electronic equipment is switched into the first state, methods described also includes:
The 5th instruction is obtained, and based on the described 5th instruction, stops powering to the volatile memory cell so that the electronics Equipment enters the 5th state, to enable the electronic equipment to delete or unload any at least one application program Application program, wherein under the 5th state, first non-volatile memory cells and second non-volatile memories Unit is in the state that is powered, and the volatile memory cell is in and is not powered state.
8. method as claimed in claim 3, it is characterised in that be in the first shape of operation operating system in the electronic equipment After state, stored before the acquisition first instruction, or described according in second non-volatile memory cells The system operation data, after the electronic equipment is switched into the first state, methods described also includes:
It is determined that need the first application program run;
According to first application program, determine that first during the first application program operation is stored in institute using service data State in the second non-volatile memory cells or in the volatile memory cell.
9. method as claimed in claim 8, it is characterised in that it is described according to first application program, determine described first The first application service data when application program is run is stored in second non-volatile memory cells or the volatibility In memory cell, specifically include:
The first storage address label corresponding to first application program is obtained, and is remembered according in the first storage address label The storage address of load, determine that described first is stored in second non-volatile memory cells or is stored in institute using service data State in volatile memory cell;Or
In the mapping table between the storage address using service data when application program and application program are run, search Storage address corresponding to first application program, and the storage address according to corresponding to first application program, it is determined that described First is stored in second non-volatile memory cells or is stored in the volatile memory cell using service data.
10. method as claimed in claim 8, it is characterised in that determine that described first is stored in using service data described Second non-volatile memory cells or after being stored in the volatile memory cell, methods described also includes:Transporting During row first application program, second non-volatile memory cells are correspondingly stored in using service data by described first In or be stored in the volatile memory cell.
11. method as claimed in claim 10, it is characterised in that described by the described first corresponding storage of application service data In second non-volatile memory cells or after being stored in the volatile memory cell, methods described also includes:
An adjust instruction is obtained, the adjust instruction is used to control the electronic equipment adjustment the first application service data Storage address;
Based on the adjust instruction, the storage address of adjustment the first application service data.
12. method as claimed in claim 11, it is characterised in that described to be based on the adjust instruction, adjustment described first should With the storage address of service data, specifically include:
It is described described first is correspondingly stored in second non-volatile memory cells using service data after, by institute State first to copy in the volatile memory cell from second non-volatile memory cells using service data, and delete Described first be stored in second non-volatile memory cells applies service data;Or
It is described described first is correspondingly stored in the volatile memory cell using service data after, by described first Copied to using service data from the volatile memory cell in second non-volatile memory cells, and delete and be stored in Described first in the volatile memory cell applies service data.
13. method as claimed in claim 12, it is characterised in that it is described by described first application service data from it is described easily The property lost memory cell replicate is deleted and is stored in the volatile memory cell into second non-volatile memory cells It is described first application service data after, methods described also includes:
Needing to revert to described first in the volatile memory cell using service data, it is non-volatile by described second Described first in memory cell copies in the volatile memory cell using service data, and it is non-easy to delete described second Described first in the property lost memory cell applies service data.
14. method as claimed in claim 3, it is characterised in that be in the first of operation operating system in the electronic equipment Before state, methods described is also included in following three kinds of modes for controlling the electronic equipment to enter the first state at least Two ways:
The first:The source program data of the operating system stored in first non-volatile memory cells is copied into institute State in the second non-volatile memory cells and run, to cause the electronic equipment to enter the first state;
Second:The source program data of the operating system stored in first non-volatile memory cells is copied into institute State in volatile memory cell and run, to cause the electronic equipment to enter the first state;
The third:The source program data of the operating system stored in first non-volatile memory cells is copied into institute State in the second non-volatile memory cells and the volatile memory cell and run, to cause described in the electronic equipment entrance First state.
15. a kind of electronic equipment, including:
First non-volatile memory cells, first non-volatile memory cells can at least store the operation of the electronic equipment The source program data of system;
Second non-volatile memory cells, it is connected with first non-volatile memory cells, second non-volatile memories At least part system operation data when unit at least can store the operating system in the operating system, institute State second read-write speed of first read or write speed less than second non-volatile memory cells of the first non-volatile memory cells Degree;
Processing unit, it is connected respectively with first non-volatile memory cells and second non-volatile memory cells, uses When the first state of operation operating system is in the electronic equipment, the first instruction is obtained, wherein, in the first state Under first non-volatile memory cells and second non-volatile memory cells be in and be powered state, and described first Non-volatile memory cells are at least stored with the source program data of the operating system of the electronic equipment, and described second is non-volatile Memory cell at least stores at least part system operation data during the operating system, and is instructed based on described first, The electronic equipment switches to the second state for not running the operating system, wherein described first non-in said second condition Volatile memory cell and second non-volatile memory cells, which are in, is not powered state, second non-volatile memories The system operation data before unit storage acquisition first instruction in second non-volatile memory cells, to cause The electronic equipment in said second condition, obtains the second instruction, and according to the described second instruction, it is non-easy according to described second The system operation data stored in the property lost memory cell, the first state is switched to by the electronic equipment.
16. electronic equipment as claimed in claim 15, it is characterised in that the processing unit is additionally operable in the electronic equipment Before the first state for running the operating system, the operation that will be stored in first non-volatile memory cells At least a portion data duplication in the source program data of system into second non-volatile memory cells and is run, and will The service data of at least a portion data is stored in second non-volatile memory cells, to cause the electronics to set It is standby to enter the first state.
17. electronic equipment as claimed in claim 15, it is characterised in that the electronic equipment also includes volatile storage list Member, the volatile memory cell respectively with first non-volatile memory cells, second non-volatile memory cells It is connected with the processing unit, the 3rd read or write speed of the volatile memory cell is higher than first read or write speed, described Volatile memory cell can at least store at least part system operation data in the operating system, wherein, The volatile memory cell is in and is powered state under the first state, in said second condition the volatile storage Unit is in and is not powered state.
18. electronic equipment as claimed in claim 17, it is characterised in that also stored in first non-volatile memory cells There is the source program data of at least one application program, when the electronic equipment is in the first state, the operating system System operation data during operation is stored in second non-volatile memory cells, is appointed at least one application program Application service data when one or more application program of anticipating is run is stored in the volatile memory cell.
19. electronic equipment as claimed in claim 18, it is characterised in that the processing unit is additionally operable in the electronic equipment During in the first state, it is described obtain first instruction before, or non-volatile deposited according to described second described The system operation data stored in storage unit, after the electronic equipment is switched into the first state, obtain the 3rd Instruction;And the third state for not running the operating system is switched to based on the described 3rd instruction, the electronic equipment, wherein First non-volatile memory cells, second non-volatile memory cells and the volatibility are deposited under the third state Storage unit is in and is not powered state, and second non-volatile memory cells, which do not store, to be obtained described the before the 3rd instruction The system operation data in two non-volatile memory cells, and under the third state, the 4th instruction is obtained, and be based on 4th instruction, the electronic equipment switches to the 4th state for running the operating system, wherein in the 4th state Under, the system operation data during operating system is only stored in second non-volatile memory cells, it is described First non-volatile memory cells and second non-volatile memory cells, which are in, is powered state, the volatile storage list Member is not in state is powered, to enable the electronic equipment to delete or unload appointing at least one application program One application program.
20. electronic equipment as claimed in claim 18, it is characterised in that the processing unit is additionally operable in the electronic equipment After first state in operation operating system, it is described obtain first instruction before, or described according to described the The system operation data stored in two non-volatile memory cells, by the electronic equipment switch to the first state it Afterwards, the 5th instruction is obtained, and based on the described 5th instruction, stops powering to the volatile memory cell so that the electronics Equipment enters the 5th state, to enable the electronic equipment to delete or unload any at least one application program Application program, wherein under the 5th state, first non-volatile memory cells and second non-volatile memories Unit is in the state that is powered, and the volatile memory cell is in and is not powered state.
21. electronic equipment as claimed in claim 17, it is characterised in that the processing unit is additionally operable in the electronic equipment After first state in operation operating system, it is described obtain first instruction before, or described according to described the The system operation data stored in two non-volatile memory cells, by the electronic equipment switch to the first state it Afterwards, it is determined that needing the first application program for running, the source program data of first application program be stored in described first it is non-easily In the property lost memory cell, and according to first application program, determine the first application fortune during the first application program operation Row data are stored in second non-volatile memory cells or in the volatile memory cell.
22. electronic equipment as claimed in claim 21, it is characterised in that the processing unit is additionally operable to obtain described first should The first storage address label corresponding to program, and the storage address according to described in the first storage address label, it is determined that Described first is stored in second non-volatile memory cells or is stored in the volatile memory cell using service data In, or in mapping table between the storage address using service data when application program and application program are run, look into Storage address corresponding to first application program, and the storage address according to corresponding to first application program are looked for, determines institute First is stated to be stored in second non-volatile memory cells using service data or be stored in the volatile memory cell.
23. electronic equipment as claimed in claim 21, it is characterised in that the processing unit is additionally operable to described in the determination First is stored in second non-volatile memory cells or is stored in it in the volatile memory cell using service data Afterwards, when running first application program, service data is applied correspondingly to be stored in described second by described first non-volatile In memory cell or it is stored in the volatile memory cell.
24. electronic equipment as claimed in claim 23, it is characterised in that the processing unit is additionally operable to described described One is correspondingly stored in second non-volatile memory cells or is stored in the volatile memory cell using service data In after, obtain an adjust instruction, the adjust instruction is used to control electronic equipment adjustment the first application operation number According to storage address, and be based on the adjust instruction, the storage address of adjustment the first application service data.
25. electronic equipment as claimed in claim 24, it is characterised in that the processing unit is specifically additionally operable to institute described State first be correspondingly stored in second non-volatile memory cells using service data after, will the described first application operation Data are copied in the volatile memory cell from second non-volatile memory cells, and are deleted and be stored in described second Described first in non-volatile memory cells applies service data, or is correspondingly deposited described first using service data described After storage is in the volatile memory cell, described first is copied to using service data from the volatile memory cell In second non-volatile memory cells, and delete the first application operation being stored in the volatile memory cell Data.
26. electronic equipment as claimed in claim 25, it is characterised in that the processing unit is additionally operable to described described One copies in second non-volatile memory cells using service data from the volatile memory cell, and deletes storage After the first application service data in the volatile memory cell, needing to apply service data by described first Revert in the volatile memory cell, described first in second non-volatile memory cells is applied into service data Copy in the volatile memory cell, and delete the first application operation in second non-volatile memory cells Data.
27. electronic equipment as claimed in claim 17, it is characterised in that the processing unit is additionally operable in the electronic equipment Before first state in operation operating system, the electronics is controlled to set by least two modes in following three kinds of modes It is standby to enter the first state:
The first:The source program data of the operating system stored in first non-volatile memory cells is copied into institute State in the second non-volatile memory cells and run, to cause the electronic equipment to enter the first state;
Second:The source program data of the operating system stored in first non-volatile memory cells is copied into institute State in volatile memory cell and run, to cause the electronic equipment to enter the first state;
The third:The source program data of the operating system stored in first non-volatile memory cells is copied into institute State in the second non-volatile memory cells and the volatile memory cell and run, to cause described in the electronic equipment entrance First state.
28. a kind of electronic equipment, including:
Casing;
Circuit board, it is arranged in the casing;
First nonvolatile memory, it is connected with the circuit board, first non-volatile memory cells can at least store institute State the source program data of the operating system of electronic equipment;
Second nonvolatile memory, it is arranged on the circuit board, is connected with first nonvolatile memory, described At least part when two non-volatile memory cells at least can store the operating system in the operating system System operation data, the first read or write speed of first non-volatile memory cells are less than the second non-volatile memories list Second read or write speed of member;
Processor, be arranged on the circuit board, respectively with first nonvolatile memory and described second non-volatile Memory is connected, for when the electronic equipment is in the first state for running operating system, obtaining the first instruction, wherein, First nonvolatile memory and second nonvolatile memory, which are in, in said first condition is powered state, And first nonvolatile memory is at least stored with the source program data of the operating system of the electronic equipment, described second Nonvolatile memory at least stores at least part system operation data during the operating system, and based on described first Instruction, the electronic equipment switches to the second state for not running the operating system, wherein described in said second condition First nonvolatile memory and second nonvolatile memory are in the state that is not powered, and described second non-volatile deposits The system operation data before reservoir storage acquisition first instruction in second nonvolatile memory, to cause State electronic equipment in said second condition, obtain the second instruction, and according to the described second instruction, it is non-volatile according to described second The system operation data stored in property memory, the first state is switched to by the electronic equipment.
29. electronic equipment as claimed in claim 28, it is characterised in that the electronic equipment also includes volatile memory, The volatile memory respectively with first nonvolatile memory, second nonvolatile memory and the processing Device is connected, and the 3rd read or write speed of the volatile memory is higher than first read or write speed, and the volatile memory exists At least part system operation data can be at least stored during the operating system, wherein, institute in said first condition Volatile memory is stated in state is powered, the volatile memory is in and is not powered shape in said second condition State.
CN201410040377.XA 2014-01-27 2014-01-27 A kind of information processing method and electronic equipment CN104808765B (en)

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