CN103106042A - Data access method and electronic device - Google Patents

Abstract

The invention provides a data access method and an electronic device. The data access method is used for the electronic device, and the electronic device includes multiple nonvolatile memories. The method includes the steps of detecting the current usage scenario of the electronic device, selecting one or more first nonvolatile memories out from the multiple nonvolatile memories, utilizing the first nonvolatile memories to access the data. According to the different usage scenarios of the electronic device, the multiple nonvolatile memories in the electronic device can be used flexibly.

Description

Data access method and electronic equipment

Technical field

The present invention relates to electronic technology field, relate in particular to a kind of data access method and electronic equipment.

Background technology

All adopt hybrid hard disk as memory device in existing a lot of electronic equipment, generally include two kinds of dissimilar nonvolatile memories in hybrid hard disk, take the hybrid hard disk that comprises solid state hard disc and disk as example, when using hybrid hard disk, normally that capacity is larger disk is as data storage device, with travelling speed faster solid state hard disc as buffer memory, and can't be according to concrete use scenes, use neatly Fixed disk and disk, thereby be difficult to bring into play to greatest extent the advantage of hybrid hard disk.

Summary of the invention

In view of this, the invention provides a kind of data access method and electronic equipment, can according to the different use scenes of electronic equipment, use neatly a plurality of nonvolatile memories in electronic equipment.

For addressing the above problem, the invention provides a kind of data access method, be applied to an electronic equipment, described electronic equipment comprises a plurality of nonvolatile memories, wherein, described method comprises:

Detect the current use scenes of described electronic equipment;

According to described current use scenes, select one or more the first nonvolatile memory from described a plurality of nonvolatile memories;

Use described the first nonvolatile memory to carry out the access of data.

Optionally, described use scenes is selected from one or more in following pattern at least: power on mode, online pattern, multiple write mode, Large Volume Data read-write mode, multiple utility program execution pattern and battery use pattern.

Optionally, described the first nonvolatile memory of the described use step of carrying out the access of data comprises:

Judge whether described current use scenes is described multiple utility program execution pattern;

When described current use scenes is described multiple utility program execution pattern, the second nonvolatile memory in described the first nonvolatile memory is divided into a plurality of subregions, and a plurality of application programs that described a plurality of subregions are corresponding with described multiple utility program execution pattern are corresponding one by one;

Use the subregion corresponding with described application program to carry out access to data corresponding to described application program.

Optionally, described according to described current use scenes, the step of selecting one or more the first nonvolatile memory from described a plurality of nonvolatile memories comprises:

Store the corresponding relation of the using method of the use scenes of described electronic equipment and described a plurality of nonvolatile memory and described nonvolatile memory, wherein, one or more in the corresponding described a plurality of nonvolatile memories of each described use scenes;

According to described current use scenes, inquire about described corresponding relation, determine and the first nonvolatile memory that described current use scenes is corresponding and the using method of described the first nonvolatile memory;

The step that described the first nonvolatile memory of described use carries out the access of data comprises:

According to the using method of described the first nonvolatile memory, use described the first nonvolatile memory to carry out the access of data.

Optionally, described according to described current use scenes, the step of selecting one or more the first nonvolatile memory from described a plurality of nonvolatile memories also comprises afterwards:

Close other nonvolatile memories except described the first nonvolatile memory in described a plurality of nonvolatile memory.

Optionally, described nonvolatile memory is light media storage device, semiconductor memory, magnetic media storer or vector storer.

The present invention also provides a kind of electronic equipment, comprising:

A plurality of nonvolatile memories;

Detection module is for detection of the current use scenes of described electronic equipment;

Select module, be used for according to described current use scenes, select one or more the first nonvolatile memory from described a plurality of nonvolatile memories;

Access module is used for using described the first nonvolatile memory to carry out the access of data.

Optionally, described use scenes is selected from one or more in following pattern at least: power on mode, online pattern, multiple write mode, Large Volume Data read-write mode, multiple utility program execution pattern and battery use pattern.

Optionally, described access module comprises:

Judge module is used for judging whether described current use scenes is described multiple utility program execution pattern;

Divide module, be used for when described current use scenes is described multiple utility program execution pattern, the second nonvolatile memory in described the first nonvolatile memory is divided into a plurality of subregions, and a plurality of application programs that described a plurality of subregions are corresponding with described multiple utility program execution pattern are corresponding one by one;

Execution module is used for using the subregion corresponding with described application program to carry out access to data corresponding to described application program.

Optionally, described electronic equipment also comprises:

Memory module, be used for storing the corresponding relation of the using method of the use scenes of described electronic equipment and described a plurality of nonvolatile memory and described nonvolatile memory, wherein, one or more in the corresponding described a plurality of nonvolatile memories of each described use scenes;

Wherein, described selection module also is used for according to described current use scenes, inquires about described corresponding relation, determines and the first nonvolatile memory that described current use scenes is corresponding and the using method of described the first nonvolatile memory;

Described access module also is used for the using method according to described the first nonvolatile memory, uses described the first nonvolatile memory to carry out the access of data.

Optionally, described electronic equipment also comprises:

Closing module is used for closing described a plurality of nonvolatile memory other nonvolatile memories except described the first nonvolatile memory.

Optionally, described nonvolatile memory is light media storage device, semiconductor memory, magnetic media storer or vector storer.

The present invention has following beneficial effect:

Can according to the different use scenes of electronic equipment, use neatly a plurality of nonvolatile memories in electronic equipment.

When use scenes is the multiple utility program execution pattern, nonvolatile memory is divided into a plurality of subregions, the corresponding application program of each subregion is used for simultaneously a plurality of application programs being carried out buffer memory and accelerates, and improves the travelling speed of electronic equipment.

Can close the current nonvolatile memory that uses of not needing, reduce the energy consumption of electronic equipment.

Description of drawings

Fig. 1 is a flow process schematic diagram of the data access method of the embodiment of the present invention;

Fig. 2 is another schematic flow sheet of the data access method of the embodiment of the present invention;

Fig. 3 is the another schematic flow sheet of the data access method of the embodiment of the present invention;

Fig. 4 is a structured flowchart of the electronic equipment of the embodiment of the present invention.

Embodiment

Below in conjunction with drawings and Examples, the specific embodiment of the present invention is described in further detail.

Be illustrated in figure 1 as a flow process schematic diagram of the data access method of the embodiment of the present invention, described data access method is applied to an electronic equipment, described electronic equipment comprises a plurality of nonvolatile memories, nonvolatile memory is a kind of form of static RAM, when electronic equipment cut out or lose external power source, its content can preserve.Described nonvolatile memory can light media storage device, semiconductor memory, magnetic media storer or vector storer.The type of a plurality of nonvolatile memories in the electronic equipment in the present embodiment can be all identical, and is also can part identical, perhaps all different.

Described data access method comprises the following steps:

Step 101, the use scenes that detected electrons equipment is current;

The use scenes of electronic equipment is also the mode of operation of electronic equipment, and it can include but not limited to one or more in following pattern: power on mode, online pattern, multiple write mode, Large Volume Data read-write mode, multiple utility program execution pattern and battery use pattern etc.

Step 102 according to described current use scenes, is selected one or more the first nonvolatile memory from described a plurality of nonvolatile memories;

Step 103 uses described the first nonvolatile memory to carry out the access of data.

In the present embodiment, can be according to the use scenes of electronic equipment corresponding data access needs are selected corresponding nonvolatile memory.

For instance, when the current use scenes of electronic equipment being detected and be power on mode, can select needed system vectoring information in travelling speed nonvolatile memory storage faster start operation, to accelerate the start-up course of electronic equipment.When the current use scenes of electronic equipment being detected and be the Large Volume Data write mode, can select the larger nonvolatile memory of capacity to carry out writing of data, to prevent memory space inadequate.Be battery when using pattern when the current use scenes of electronic equipment being detected, can select the lower nonvolatile memory of power consumption to carry out the access of data, to save the power consumption of electronic equipment.

When the current use pattern of electronic equipment being detected and be the multiple utility program execution pattern, corresponding nonvolatile memory can be divided into a plurality of subregions, a plurality of application programs that described a plurality of subregion is corresponding with described multiple utility program execution pattern are corresponding one by one, then use the subregion corresponding with each application program to carry out access to data corresponding to this application program.

Be illustrated in figure 2 as another schematic flow sheet of the data access method of the embodiment of the present invention, described data access method is applied to an electronic equipment, and described electronic equipment comprises a plurality of nonvolatile memories, said method comprising the steps of:

Step 201, the use scenes that detected electrons equipment is current;

Step 202 according to described current use scenes, is selected one or more the first nonvolatile memory from described a plurality of nonvolatile memories;

Step 203 judges whether described current use scenes is the multiple utility program execution pattern, if execution in step 204, otherwise, execution in step 206;

Step 204 is divided into a plurality of subregions with the second nonvolatile memory in described the first nonvolatile memory, and a plurality of application programs that described a plurality of subregions are corresponding with described multiple utility program execution pattern are corresponding one by one;

Step 205 uses the subregion corresponding with described application program to carry out access to data corresponding to described application program.

Step 206 uses described the first nonvolatile memory to carry out the access of data.

The nonvolatile memory that is applied to the multiple utility program execution pattern in the present embodiment is travelling speed nonvolatile memory, for example solid state hard disc faster normally.In the embodiment of the present invention, at first the corresponding relation of the use scenes of store electrons equipment and a plurality of nonvolatile memories, when the current use scenes of electronic equipment being detected, inquire about described corresponding relation, select first nonvolatile memory corresponding with current use scenes to carry out the access of data.

In addition, except the corresponding relation that can store use scenes and nonvolatile memory, can also store the corresponding relation of the using method of use scenes and nonvolatile memory, thereby according to the using method of the nonvolatile memory of storing, use nonvolatile memory to carry out the access of data.

Be illustrated in figure 3 as the another schematic flow sheet of the data access method of the embodiment of the present invention, described data access method is applied to an electronic equipment, and described electronic equipment comprises a plurality of nonvolatile memories, and described data access method comprises the following steps:

Step 301, the corresponding relation of a plurality of nonvolatile memories of the use scenes of store electrons equipment and electronic equipment and the using method of described nonvolatile memory, wherein, one or more in the corresponding described a plurality of nonvolatile memories of each use scenes;

Step 301 detects the current use scenes of described electronic equipment;

Step 302 according to described current use scenes, is inquired about described corresponding relation, determines and the first nonvolatile memory that described current use scenes is corresponding and the using method of described the first nonvolatile memory;

Step 303 according to the using method of described the first nonvolatile memory, uses described the first nonvolatile memory to carry out the access of data.

In the embodiment of the present invention, use scenes also can corresponding a plurality of nonvolatile memories, and when the corresponding a plurality of nonvolatile memory of a certain use scenes, the using method of described a plurality of nonvolatile memories can include but not limited to:

With one of them nonvolatile memory all as the buffer memory of other nonvolatile memories;

With the part of one of them non-volatile storage buffer memory as other nonvolatile memories;

With a plurality of different pieces of one of them non-volatile storage respectively as the buffer memory of other a plurality of nonvolatile memories;

Need the data of access to be averagely allocated to each nonvolatile memory use scenes;

According to the performance of each nonvolatile memory, need the data of access to distribute to respectively each nonvolatile memory use scenes;

Etc..

In addition, in order to save the power consumption of electronic equipment, in above-mentioned each embodiment, can also be after use first nonvolatile memory corresponding with use scenes carries out the access of data, close other nonvolatile memories except described the first nonvolatile memory in described a plurality of nonvolatile memory, concrete, can by the mode of outage, close other nonvolatile memories.

The below describes take electronic equipment as computing machine as example, and this computing machine comprises two nonvolatile memories, and one is solid state hard disc, and one is ordinary magnetic disc, stores a corresponding relation table in described computing machine, as follows:

Below for example the data access method of the computing machine in the present embodiment is described:

(1) use scenes is power on mode

When the current use scenes of electronic equipment being detected and be power on mode, inquire about above-mentioned mapping table, determine to select solid state hard disc, and use needed system vectoring information in the start operation of storing in solid state hard disc, carry out the start operation.

In this embodiment, can be with system's vectoring information longer-term storage in solid state hard disc, but because the storage space of solid state hard disc is usually less, therefore can be after start be completed, system's vectoring information of storing in the deletion solid state hard disc, before shutdown each time, then system's vectoring information is deposited in solid state hard disc.

Certainly, also can adopt other modes to select corresponding nonvolatile memory, go to read system's vectoring information of storing in solid state hard disc etc. when being set directly at start.

(2) use scenes is the online pattern

When the current use scenes of electronic equipment being detected and be the online pattern, inquire about above-mentioned mapping table, determine to select solid state hard disc, and the related data of surf the Net (for example cookies) is cached in solid state hard disc, can also closes disk simultaneously with the power consumption of saving computing machine.

(3) use scenes is the multiple utility program execution pattern

When the current use scenes of electronic equipment being detected and be multiple utility program (for example IE, QQ client, antivirus software) execution pattern, inquire about above-mentioned mapping table, determine to select solid state hard disc, and solid state hard disc is divided into 3 subregions, wherein, a subregion is used for that IE is carried out buffer memory to accelerate, and a subregion is used for that the QQ client is carried out buffer memory to accelerate, and a subregion is used for that antivirus software is carried out buffer memory to accelerate.

(4) use scenes is the Large Volume Data read-write mode

When the current use scenes of electronic equipment being detected and be the Large Volume Data read-write mode, inquire about above-mentioned mapping table, determine to select solid state hard disc and disk to carry out the read-write of Large Volume Data, wherein, with the buffer memory of solid state hard disc as disk.

(5) use scenes is online pattern+Large Volume Data read-write mode

When the current use scenes of electronic equipment to be detected be online pattern+Large Volume Data read-write mode, inquire about above-mentioned mapping table, select solid state hard disc to be used for the data access of online pattern, select disk as the data access of Large Volume Data read-write mode.

As shown in Figure 4, the embodiment of the present invention also provides a kind of electronic equipment, this electronic equipment comprises: a plurality of nonvolatile memories 401 (being take two as example in Fig. 4), and described nonvolatile memory can be light media storage device, semiconductor memory, magnetic media storer or vector storer etc.; Detection module 402 is for detection of the current use scenes of described electronic equipment; Select module 403, be used for according to described current use scenes, select one or more the first nonvolatile memory from described a plurality of nonvolatile memories; Access module 404 is used for using described the first nonvolatile memory to carry out the access of data.

Described use scenes can be one or more in following pattern: power on mode, online pattern, multiple write mode, Large Volume Data read-write mode, multiple utility program execution pattern and battery use pattern etc.

When the current use pattern of electronic equipment being detected and be the multiple utility program execution pattern, corresponding nonvolatile memory can be divided into a plurality of subregions, a plurality of application programs that described a plurality of subregion is corresponding with described multiple utility program execution pattern are corresponding one by one, then use the subregion corresponding with each application program to carry out access to data corresponding to this application program.

Based on foregoing description, described access module 404 comprises:

Judge module is used for judging whether described current use scenes is described multiple utility program execution pattern;

Divide module, be used for when described current use scenes is described multiple utility program execution pattern, the second nonvolatile memory in described the first nonvolatile memory is divided into a plurality of subregions, and a plurality of application programs that described a plurality of subregions are corresponding with described multiple utility program execution pattern are corresponding one by one;

Execution module is used for using the subregion corresponding with described application program to carry out access to data corresponding to described application program.

In the embodiment of the present invention, can at first store the corresponding relation of the use scenes of a plurality of nonvolatile memories and electronic equipment, when the current use scenes of electronic equipment being detected, inquire about described corresponding relation, select the nonvolatile memory corresponding with current use scenes to carry out the access of data.

Based on foregoing description, the electronic equipment of the present embodiment also comprises:

Memory module, be used for storing the corresponding relation of the using method of the use scenes of described electronic equipment and described a plurality of nonvolatile memory and described nonvolatile memory, wherein, one or more in the corresponding described a plurality of nonvolatile memories of each described use scenes;

Wherein, described selection module 403 also is used for according to described current use scenes, inquires about described corresponding relation, determines and the first nonvolatile memory that described current use scenes is corresponding and the using method of described the first nonvolatile memory;

Described access module 404 also is used for the using method according to described the first nonvolatile memory, uses described the first nonvolatile memory to carry out the access of data.

In addition, in order to save the power consumption of electronic equipment, in above-mentioned each embodiment, can also after use first nonvolatile memory corresponding with use scenes carries out the access of data, close other nonvolatile memories except described the first nonvolatile memory in described a plurality of nonvolatile memory.

Based on foregoing description, the electronic equipment of the present embodiment also comprises:

Closing module is used for closing described a plurality of nonvolatile memory other nonvolatile memories except described the first nonvolatile memory.Concrete, can by the mode of outage, close other nonvolatile memories

In sum, embodiments of the invention have the following advantages:

Can according to the different use scenes of electronic equipment, use neatly a plurality of nonvolatile memories in electronic equipment.

When use scenes is the multiple utility program execution pattern, nonvolatile memory is divided into a plurality of subregions, the corresponding application program of each subregion is used for simultaneously a plurality of application programs being carried out buffer memory and accelerates, and improves the travelling speed of electronic equipment.

Can close the current nonvolatile memory that uses of not needing, reduce the energy consumption of electronic equipment.

Many functional parts described in this instructions all are called as module, in order to emphasize more especially the independence of its implementation.

In the embodiment of the present invention, module can realize with software, in order to carried out by various types of processors.For instance, the executable code module of a sign can comprise one or more physics or the logical block of computer instruction, and for instance, it can be built as object, process or function.However, the executable code of institute's identification module need not to be physically located in together, but can comprise the different instruction on being stored in coordination not, when combining on these command logics, and its composition module and realize the regulation purpose of this module.

In fact, executable code module can be individual instructions or many instructions, and even can be distributed on a plurality of different code segments, is distributed in the middle of distinct program, and crosses over a plurality of memory devices distributions.Similarly, service data can be identified in module, and can realize and be organized in the data structure of any suitable type according to any suitable form.Described service data can be used as the individual data collection and is collected, and perhaps can be distributed on diverse location (to be included on different storage device), and can only be present on electronic equipment or network as electronic signal at least in part.

When module can utilize software to realize, consider the level of existing hardware technique, so can be with the module of software realization, in the situation that do not consider cost, those skilled in the art can build corresponding hardware circuit and realize corresponding function, and described hardware circuit comprises conventional ultra-large integrated (VLSI) circuit or gate array and the existing semiconductor such as logic chip, transistor or other discrete element.Module can also be used programmable hardware device, realizations such as field programmable gate array, programmable logic array, programmable logic device.

The above is only the preferred embodiment of the present invention; should be pointed out that for those skilled in the art, under the prerequisite that does not break away from the principle of the invention; can also make some improvements and modifications, these improvements and modifications also should be considered as protection scope of the present invention.

Claims (12)

1. a data access method, be applied to an electronic equipment, it is characterized in that, described electronic equipment comprises a plurality of nonvolatile memories, and wherein, described method comprises:

Detect the current use scenes of described electronic equipment;

According to described current use scenes, select one or more the first nonvolatile memory from described a plurality of nonvolatile memories;

Use described the first nonvolatile memory to carry out the access of data.

2. data access method as claimed in claim 1, it is characterized in that, described use scenes is selected from one or more in following pattern at least: power on mode, online pattern, multiple write mode, Large Volume Data read-write mode, multiple utility program execution pattern and battery use pattern.

3. data access method as claimed in claim 2, is characterized in that, the step that described the first nonvolatile memory of described use carries out the access of data comprises:

Judge whether described current use scenes is described multiple utility program execution pattern;

When described current use scenes is described multiple utility program execution pattern, the second nonvolatile memory in described the first nonvolatile memory is divided into a plurality of subregions, and a plurality of application programs that described a plurality of subregions are corresponding with described multiple utility program execution pattern are corresponding one by one;

Use the subregion corresponding with described application program to carry out access to data corresponding to described application program.

4. data access method as claimed in claim 1 is characterized in that:

Described according to described current use scenes, the step of selecting one or more the first nonvolatile memory from described a plurality of nonvolatile memories comprises:

Store the corresponding relation of the using method of the use scenes of described electronic equipment and described a plurality of nonvolatile memory and described nonvolatile memory, wherein, one or more in the corresponding described a plurality of nonvolatile memories of each described use scenes;

According to described current use scenes, inquire about described corresponding relation, determine and the first nonvolatile memory that described current use scenes is corresponding and the using method of described the first nonvolatile memory;

The step that described the first nonvolatile memory of described use carries out the access of data comprises:

According to the using method of described the first nonvolatile memory, use described the first nonvolatile memory to carry out the access of data.

5. data access method as claimed in claim 1, is characterized in that, and is described according to described current use scenes, and the step of selecting one or more the first nonvolatile memory from described a plurality of nonvolatile memories also comprises afterwards:

Close other nonvolatile memories except described the first nonvolatile memory in described a plurality of nonvolatile memory.

6. as the described data access method of claim 1-5 any one, it is characterized in that, described nonvolatile memory is light media storage device, semiconductor memory, magnetic media storer or vector storer.

7. an electronic equipment, is characterized in that, comprising:

A plurality of nonvolatile memories;

Detection module is for detection of the current use scenes of described electronic equipment;

Select module, be used for according to described current use scenes, select one or more the first nonvolatile memory from described a plurality of nonvolatile memories;

Access module is used for using described the first nonvolatile memory to carry out the access of data.

8. electronic equipment as claimed in claim 7, it is characterized in that, described use scenes is selected from one or more in following pattern at least: power on mode, online pattern, multiple write mode, Large Volume Data read-write mode, multiple utility program execution pattern and battery use pattern.

9. electronic equipment as claimed in claim 8, is characterized in that, described access module comprises:

Judge module is used for judging whether described current use scenes is described multiple utility program execution pattern;

Divide module, be used for when described current use scenes is described multiple utility program execution pattern, the second nonvolatile memory in described the first nonvolatile memory is divided into a plurality of subregions, and a plurality of application programs that described a plurality of subregions are corresponding with described multiple utility program execution pattern are corresponding one by one;

Execution module is used for using the subregion corresponding with described application program to carry out access to data corresponding to described application program.

10. electronic equipment as claimed in claim 7, is characterized in that, also comprises:

Memory module, be used for storing the corresponding relation of the using method of the use scenes of described electronic equipment and described a plurality of nonvolatile memory and described nonvolatile memory, wherein, one or more in the corresponding described a plurality of nonvolatile memories of each described use scenes;

Wherein, described selection module also is used for according to described current use scenes, inquires about described corresponding relation, determines and the first nonvolatile memory that described current use scenes is corresponding and the using method of described the first nonvolatile memory;

Described access module also is used for the using method according to described the first nonvolatile memory, uses described the first nonvolatile memory to carry out the access of data.

11. electronic equipment as claimed in claim 7 is characterized in that, also comprises:

Closing module is used for closing described a plurality of nonvolatile memory other nonvolatile memories except described the first nonvolatile memory.

12. as the described electronic equipment of claim 7-11 any one, it is characterized in that, described nonvolatile memory is light media storage device, semiconductor memory, magnetic media storer or vector storer.

Images