CN104881815A - Data storage processing method and system in oil reservoir integration research - Google Patents

Abstract

The application embodiment provides a data storage processing method and system in oil reservoir integration research; the method comprises the following steps: the data in the oil reservoir integration research is divided into three stages: first stage data is shared data stored in a shared server, and is from externally introduced original data and result data uploaded by an application server; second stage data is local data stored in a local disc of the application server, may be result data generated in an application process, and may be from the shared data of the shared server; third stage data is memory data stored in a memory virtual disc of the application server, and managed by a virtual disc file method.

Description

The method and system of the data storage processing in a kind of oil reservoir synthetic study

Technical field

The present invention relates to technical field of geophysical exploration, particularly relate to the method and system of the data storage processing in a kind of oil reservoir synthetic study.

Background technology

In oil reservoir development process, acquire a large amount of data, relate to different majors, different-format and dissimilar data, as geological data, seismic properties, layer position, tomography, logging trace, well track, demixing point, model data, dynamic production data etc.Reasonably these data comprehensive, can improve precision and the Optimal Development scheme of oil reservoir explanation, thus improve recovery ratio.

In data processing, because research work is usually a multi-user collaborative job, multiple user carries out the research to same project simultaneously, and everyone in a project may use other people achievement in research, also may all will upgrade some data or revise.But in prior art, under cooperative working environment, the data that different majors uses are different, and need to use several data, and often need to load certain data to working environment or from working environment from shared data disk to unload some data, to carry out different analysis and research, and each user can not share the renewal of current data or amendment.Therefore, these data be utilized to improve precision that oil reservoir explains and Optimal Development scheme, just needs to ensure can share achievement in research between researchist under cooperative surroundings, and the renewal of data in the course of work, amendment, load or unload do not affect other people.

Summary of the invention

The object of the application is to provide the method and system of the data storage processing in a kind of oil reservoir synthetic study, to meet data collaborative operation between each specialty in oil reservoir research, for oil reservoir synthetic study provides can convenient method of carrying out data selection directly perceived, namely in shared server, use the area data system of selection based on data geographic coordinate, and a kind of ranked data management method, comprise shared data management, application local disk data management and the management of application memory virtual disk data, the data sharing method provided is while data sharing, not only meet multi-specialized multi-user collaborative demand, and the safety of data can be ensured.

To achieve these goals, this application provides the method for the data storage processing in a kind of oil reservoir synthetic study, the method comprises:

Data in described oil reservoir synthetic study are divided into three grades: the first order is the shared data be stored in shared server, and the second level is be stored in the local data on application server local disk; The third level is be stored in the internal storage data on application server memory virtual disk, and this data processing method comprises:

Described shared server obtains shares data, and by the identification information storage of described shared data to sharing data directory, described shared data is stored to shared disk;

Described application server reads in described shared data directory from described shared server, and the data name obtained from described shared data directory in described shared data in pending data identification information and/or data geographic coordinate, and obtain pending data according to described data name and/or described data geographic coordinate from described shared disk, and by the identification information storage of described pending data to application data concordance list;

Non-seismology data in described pending data is stored to local disk by described application server, and the Documents Logical creating the geological data in described pending data maps, and described Documents Logical mapping is stored in local disk;

Described application server obtains data name the identification information of described pending data and/or data geographic coordinate from described application data concordance list, and according to described data name and/or the described data geographic coordinate pending data acquisition data to be processed from local disk;

The described Non-seismology data that will process in data is loaded on internal memory by described application server, and load the basic earthquake data message of described geological data to internal memory according to the Documents Logical mapping of the described geological data that will process in data from shared server, the virtual disk files of data will be processed described in creating in internal memory, and using the described globally unique identifier that will process data as data disk filename, and by the described identification information storage that will process data to internal storage data concordance list;

Described application server processes described data to be processed, and according to result data point reuse internal storage data concordance list;

Described result data are stored in local disk by described application server, and according to described result data point reuse application data concordance list.

In a preferred embodiment, described shared server obtains shared data and comprises: described shared server obtains external data as shared data, and/or described shared server receives result data that described application server uploads as shared data.

In a preferred embodiment, described shared server obtains external data as shared data, and by the identification information storage of described shared data to sharing data directory, described shared data being stored to shared disk and comprising:

Described shared server obtains external data, using described external data as shared data, and adds latching operation to shared data directory;

Determine the identification information of described shared data, by the identification information recording of described shared data determined at shared data directory;

Described shared data are stored in shared disk, and unlocking operation is carried out to shared data directory.

In a preferred embodiment, described shared server receives result data that described application server uploads as shared data, and by the identification information storage of described shared data to sharing data directory, described shared data being stored to shared disk and comprising:

Receive the locking request that described application server sends;

In response to described locking request, latching operation is added to shared data directory, and complete add latching operation after return to described application server the success message that locks;

Receive the result data that described application server is uploaded after receiving the success message that locks of shared server feedback, and described result data are stored to shared disk as shared data;

Determine the identification information of described shared data, and by the identification information recording of described shared data determined at shared data directory;

Receive the unlocking request returned of described application server, and unlocking operation is carried out to described shared data directory.

In a preferred embodiment, it is characterized in that, describedly determine that the identification information of described shared data comprises:

Generate the globally unique identifier of described shared data;

Globally unique identifier according to described shared data generates shared disk filename, and wherein, described shared disk filename is for identifying the described memory location of shared data in shared disk.

In a preferred embodiment, the identification information of described shared data also comprises: the C++ class name of node name, father node name, data, data name, data type, version information and data generation time.

In a preferred embodiment, the described identification information storage by described pending data comprises to application data concordance list:

Determine the identification information of described pending data, and by the identification information recording of described pending data determined at application data concordance list.

In a preferred embodiment, describedly determine that the identification information of described pending data comprises:

Generate the globally unique identifier of described pending data;

Globally unique identifier according to described pending data generates local disk filename, and wherein, described local disk filename is for identifying the described memory location of pending data in local disk.

In a preferred embodiment, the identification information of described pending data also comprises: the C++ class name of node name, father node name, child node list of file names, data, data type, data generation time.

In a preferred embodiment, described the described identification information storage that will process data to be comprised to internal storage data concordance list:

Determine the described identification information that will process data, and the identification information recording of data will be processed at internal storage data concordance list described in determining.

In a preferred embodiment, describedly determine that the described identification information that will process data comprises:

Read described application data concordance list;

The identification information of data will be processed described in obtaining from described application data concordance list;

Using the globally unique identifier in described identification information as data disk filename.

In a preferred embodiment, the described identification information that will process data also comprises: the C++ class name of node name, father node name, child node list of file names, data, data type, data generation time.

In a preferred embodiment, described result data are stored in local disk by described application server, and application data concordance list comprises according to described result data point reuse:

Reading application data concordance list;

Judge whether described result data are the data increased;

When described being judged as YES, determine the identification information of described result data, by described identification information recording at described application data concordance list, and described result data are stored in local disk.

In a preferred embodiment, described result data are stored in local disk by described application server, and application data concordance list also comprises according to described result data point reuse:

When described being judged as NO, described result data are stored in local disk, and keep presetting amendment mark to application data concordance list.

In a preferred embodiment, describedly determine that the identification information of described result data comprises:

Generate the globally unique identifier of described result data;

Globally unique identifier according to described result data generates local disk filename, and wherein, described local disk filename is for identifying the described memory location of pending data in local disk.

In a preferred embodiment, the identification information of described result data also comprises: the C++ class name of node name, father node name, child node list of file names, data, data name, data type, data geographic coordinate, data generation time.

In a preferred embodiment, the identification information of described result data also comprises: display attribute information.

The application also provides the system of the data storage processing in a kind of oil reservoir synthetic study, it is characterized in that, this system comprises: shared server and application server;

Described shared server comprises the first data capture unit, for obtaining shared data, and by the identification information storage of described shared data to sharing data directory, described shared data is stored to shared disk;

Described application server comprises the second data capture unit, described shared data directory is read in from described shared server for described application server, and the data name obtained from described shared data directory in described shared data in pending data identification information and/or data geographic coordinate, and obtain pending data according to described data name and/or described data geographic coordinate from described shared disk, and by the identification information storage of described pending data to application data concordance list; Data storage cell, for the Non-seismology data in described pending data is stored to local disk, and the Documents Logical creating the geological data in described pending data maps, and described Documents Logical mapping is stored in local disk; 3rd data capture unit, for obtaining data name in the identification information of described pending data and/or data geographic coordinate from described application data concordance list, and according to described data name and/or the described data geographic coordinate pending data acquisition data to be processed from local disk; Data import unit, for the described Non-seismology data that will process in data is loaded on internal memory, and load the basic earthquake data message of described geological data to internal memory according to the Documents Logical mapping of the described geological data that will process in data from shared server, the virtual disk files of data will be processed described in creating in internal memory, and using the described globally unique identifier that will process data as data disk filename, and by the described identification information storage that will process data to internal storage data concordance list; Data processing unit processes described data to be processed, and according to result data point reuse internal storage data concordance list; Data storage cell, for described result data are stored in local disk, and according to described result data point reuse application data concordance list.

The technical scheme provided from above the embodiment of the present application, the embodiment of the present application is by being stored in the data loading of shared server to application server local disk, and in local internal memory, data are processed, again by result data upload to shared server, not only achieve data sharing, also because data are the securities that ensure that data carrying out in this locality processing, the data processing method utilizing the embodiment of the present application to provide can improve precision and the Optimal Development scheme of oil reservoir explanation greatly.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present application or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, the accompanying drawing that the following describes is only some embodiments recorded in the application, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the process flow diagram of the embodiment of the method for data storage processing in a kind of oil reservoir synthetic study of the application;

Fig. 2 is the process flow diagram of the shared server acquisition data that the embodiment of the present application provides;

Fig. 3 is the structural representation of the shared data directory that the embodiment of the present application provides;

Fig. 4 is the process flow diagram that result data are stored in local disk by application server that the embodiment of the present application provides;

Fig. 5 is that the application server that provides of the embodiment of the present application is by the process flow diagram of result data upload to shared server;

Fig. 6 is the schematic diagram of the system of a kind of data processing of the embodiment of the present application.

Embodiment

Technical scheme in the application is understood better in order to make those skilled in the art person, below in conjunction with the accompanying drawing in the embodiment of the present application, technical scheme in the embodiment of the present application is clearly and completely described, obviously, described embodiment is only some embodiments of the present application, instead of whole embodiments.Based on the embodiment in the application, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all should belong to the scope of the application's protection.

The specific implementation of the embodiment of the present application is described below in detail with several concrete example.

Below the embodiment of the method for the data storage processing in a kind of oil reservoir synthetic study of the application is first introduced.Fig. 1 is the schematic flow sheet of the method that the data processing provided according to some embodiment of the application is described, although hereafter describe flow process to comprise the multiple operations occurred with particular order, but should have a clear understanding of, these processes can comprise more or less operation, and these operations can sequentially perform or executed in parallel (such as using parallel processor or multi-thread environment).As shown in Figure 1, the data in described oil reservoir synthetic study are divided into three grades: the first order is the shared data be stored in shared server, and the second level is be stored in the local data on application server local disk; The third level is be stored in the internal storage data on application server memory virtual disk, and this data processing method comprises:

S110: described shared server obtains shares data, and by the identification information storage of described shared data to sharing data directory, described shared data is stored to shared disk.

In certain embodiments, described shared data can comprise different majors, different-format and dissimilar data.In certain embodiments, described shared data can comprise external data.Concrete, by reference to the accompanying drawings 2, described shared server obtains shares data, and by the identification information storage of described shared data to sharing data directory, described shared data is stored to shared disk.Can comprise:

S111: described shared server obtains external data, using described external data as shared data, and adds latching operation to shared data directory.

In certain embodiments, shared server can obtain external data, and adds latching operation to shared data directory.In certain embodiments, when there being other users revising described shared data directory, described shared server successfully again will could add latching operation to shared data directory after current lock unlocks.

In certain embodiments, described shared data directory can be pre-created according to the identification information of the data being stored in shared server, and described shared data directory can be stored in described shared server disk with document form.By reference to the accompanying drawings 3, creating that described shared data directory can comprise with data type is that root node establishes tree-shaped chained list, under each back end is all positioned at corresponding root vertex, and the identification information of data described in each back end record.Concrete, data type can first mainly divide five kinds to comprise here: geological data, reservoir simulation data, Production development data (being also Reservoir Data), geologic data and log data.Accordingly, as can be seen from Figure 3, above-mentioned data type can further be segmented.According to data type can fast finding to certain data position, and data in shared server any quoted, inquire about, browsing can by described shared data directory.

In actual oil reservoir synthetic study process, researchist, when the data that hundreds of data type of Treatment Analysis and up to ten thousand vary in size, usually comprehensively can analyze in conjunction with the data of adjacent block.Therefore, in research process, the shared server of oil reservoir synthetic study can by above-mentioned five large class data according to concrete needs, different platform window is used to divide, personnel for deliberation carry out the different data of Treatment Analysis, comprise reservoir description platen window, reservoir simulation platen window, reservoir monitoring platen window and oil reservoir integrated collaborative platen window, each platen window also can derive from more other and research and analyse platen window, often derive from a window and just by data type or data geographic coordinate, data are segmented.Described reservoir description platen window comprises geological data, log data and geologic data; Described reservoir simulation platen window comprises reservoir simulation data, log data and geologic data; Described reservoir monitoring platen window comprises geological data, Reservoir Data and geologic data; Described oil reservoir integrated collaborative platen window comprises geological data, log data, Reservoir Data and geologic data.Researchist can select corresponding platen window to obtain data according to specific needs.

In certain embodiments, in described shared data directory, the data identification information of each back end can comprise: node name, any one or more in the C++ class name of father node name, data, data name, data type, data globally unique identifier (GUID), data disk filename, data geographic coordinate, version information and data generation time.

Further, globally unique identifier (Globally Unique Identifier, GUID) is here a kind of binary length generated by algorithm is the numeric identifier of 128.And by using GUID mode named data filename, the Internet Circumstance part naming conflict problem can be avoided.

S112: the identification information determining described shared data, by the identification information recording of described shared data determined at shared data directory.

In certain embodiments, after step S111 successfully carries out adding latching operation, shared server can determine the identification information of described shared data, by the identification information recording of described shared data determined at shared data directory.

Further, in certain embodiments, determine that the identification information of described shared data can comprise the globally unique identifier generating described shared data; Globally unique identifier according to described shared data generates shared disk filename, and wherein, described shared disk filename is for identifying the described memory location of shared data in shared disk.

Further, determine that the identification information of described shared data can also comprise the identification information being determined other shared data described as the case may be by system.

Further, the described identification information recording by the described shared data determined can comprise at shared data directory: the data type according to shared data searches insertion point at described shared data directory; Back end is created in described insertion point; By described identification information recording at described back end.

In addition, in certain embodiments, when shared server needs to delete the data in shared data directory, this back end can be searched according to data type and/or data geographic coordinate; Disk file name is obtained from this back end related data identification information; Delete back end described in described shared data directory and disk file corresponding to described data.Concrete, search corresponding back end according to data geographic coordinate and can comprise the back end finding correspondence according to a data geographic coordinate, can also comprise, selected multiple data geographic coordinate, so can find the multiple back end in certain region of described multiple data geographic coordinate formation.And the data in this region can be dissimilar, different majors, different-format or different blocks data.

S113: described shared data are stored in shared disk, and unlocking operation is carried out to shared data directory.

In certain embodiments, described shared data can be stored in shared disk by shared server, and carry out unlocking operation to shared data directory.

S120: described application server reads in described shared data directory from described shared server, and the data name obtained from described shared data directory in described shared data in pending data identification information and/or data geographic coordinate, and obtain pending data according to described data name and/or described data geographic coordinate from described shared disk, and by the identification information storage of described pending data to application data concordance list.

In certain embodiments, described application server reads in described shared data directory from described shared server, and the data name obtained from described shared data directory in described shared data in pending data identification information and/or data geographic coordinate, and obtain pending data according to described data name and/or described data geographic coordinate from described shared disk, and by the identification information storage of described pending data to application data concordance list.Concrete, in certain embodiments, user can determine according to data name and/or data geographic coordinate the back end that described pending data are corresponding in described shared data directory, according to the acquisition of information disk file name of described back end record, also namely determine the position that described pending data store; Accordingly, application server can receive the operation that user clicks the identification options of pending data described in described shared data directory, determines described pending data according to described operation.

In addition, determine in the embodiment of the present application that described pending data mode is not restricted to click by receiving user the mode of the operation of the identification options of pending data described in described shared data directory, in actual applications, can also comprise other modes, the embodiment of the present application is not as limit.

In addition, application data concordance list described here can be pre-created according to the identification information of the data being stored in current application server, and described application data concordance list can be stored in described application server disk with document form.Creating that described application data concordance list can comprise with data type is that root node establishes tree-shaped chained list, under each back end is all positioned at corresponding root vertex, and the identification information of data described in each back end record.According to data type can fast finding to certain data position, and in application server, any quoting of data can by described application data concordance list.In certain embodiments, in described application data concordance list, the data identification information of each back end can comprise: any one or more in the C++ class name of node name, father node name, child node list of file names, data, data name, data type, data globally unique identifier (GUID), data disk filename, data geographic coordinate, data generation time.

Further, in certain embodiments, describedly determine that the identification information of described pending data can comprise: the globally unique identifier generating described pending data; Globally unique identifier according to described pending data generates local disk filename, and wherein, described local disk filename is for identifying the described memory location of pending data in local disk.

Further, determine that the identification information of described pending data can also comprise and determine other pending data identification information described by system as the case may be.

Further, in certain embodiments, described described identification information recording can be comprised at application data concordance list: the data type according to described pending data searches insertion point at described application data concordance list; Back end is created in described insertion point; Described identification information and described basic earthquake data message are recorded in described back end.

In addition, in certain embodiments, when application server needs the data in application data concordance list to delete, this back end can be searched according to data type and/or data geographic coordinate; According to this back end related data identification information judgment, whether data are geological data; When described being judged as YES, delete back end described in described application data concordance list; When described being judged as NO, delete back end described in described application data concordance list and disk file corresponding to described data.Concrete, search corresponding back end according to data geographic coordinate and can comprise the back end finding correspondence according to a data geographic coordinate, can also comprise, selected multiple data geographic coordinate, so can find the multiple back end in certain region of described multiple data geographic coordinate formation.And the data that this region does not have can be dissimilar, different majors, different-format and different blocks data.

Further, here the display attribute information of data can also be stored at application server, the display attribute information of described data data can be enable after application server is restarted automatically to be loaded into internal memory and recover its last time software exit before state, avoid user's reloading each data, reset various identification information.

In certain embodiments, when described pending data are not geological datas, described Non-seismology data can be stored in local disk by application server.

In certain embodiments, the basic earthquake data message of described geological data can comprise the relevant geological data information needing to use in data processing such as survey line name, road length, sampling interval.

S130: the Non-seismology data in described pending data is stored to local disk by described application server, and the Documents Logical creating the geological data in described pending data maps, and described Documents Logical mapping is stored in local disk.

In certain embodiments, after step S120, Non-seismology data in described pending data can be stored to local disk by described application server, and the Documents Logical creating the geological data in described pending data maps, and described Documents Logical mapping is stored in local disk.

In certain embodiments, general geological data is comparatively large, needs to take larger space.Therefore, when described pending data are geological datas, the Documents Logical that can create the geological data in described pending data maps, and described Documents Logical mapping is stored in local disk.Namely the seismic data acquisition logical mappings in described pending data can be stored in current application server, this data entity is not preserved in this locality, to reduce space hold yet.Described Documents Logical mapping can be the corresponding relation of application server and shared server file, also, namely when application server is according to the data name in data identification information and/or data geographic coordinate determination data, can map according to described Documents Logical and determine described data corresponding body of data in shared server.

S140: described application server obtains data name the identification information of described pending data and/or data geographic coordinate from described application data concordance list, and according to described data name and/or the described data geographic coordinate pending data acquisition data to be processed from local disk.

In certain embodiments, application server obtains data name the identification information of described pending data and/or data geographic coordinate from described application data concordance list, and according to described data name and/or the described data geographic coordinate pending data acquisition data to be processed from local disk.

S150: the described Non-seismology data that will process in data is loaded on internal memory by described application server, and load the basic earthquake data message of described geological data to internal memory according to the Documents Logical mapping of the described geological data that will process in data from shared server, the virtual disk files of data will be processed described in creating in internal memory, and using the described globally unique identifier that will process data as data disk filename, and by the described identification information storage that will process data to internal storage data concordance list.

In certain embodiments, the described Non-seismology data that will process in data can be loaded on internal memory by described application server, and load the basic earthquake data message of described geological data to internal memory according to the Documents Logical mapping of the described geological data that will process in data from shared server, the virtual disk files of data will be processed described in creating in internal memory, and using the described globally unique identifier that will process data as data disk filename, and by the described identification information storage that will process data to internal storage data concordance list.In certain embodiments, the basic earthquake data message of described geological data can comprise the relevant geological data information needing to use in data processing such as survey line name, road length, sampling interval.

In certain embodiments, application server can carry out memory virtual disk management, when application server loads in each data to application memory, a virtual disk files name is specified to these data, data manage with file mode, and the management of file comprises the copy of file, delete, browse, rename, file read-write.

In certain embodiments, when described data to be processed are geological datas, application server can map according to the Documents Logical of the described geological data that will process in data and load the basic earthquake data message of described geological data to internal memory from shared server.In certain embodiments, when described data to be processed are not geological datas, the described Non-seismology data that will process in data can be loaded on internal memory by application server.

Concrete, in certain embodiments, described the described identification information storage that will process data to be comprised to internal storage data concordance list: determine the described identification information that will process data, and the identification information recording of data will be processed at internal storage data concordance list described in determining.

In certain embodiments, describedly determine that the described identification information that will process data comprises: read described application data concordance list; The identification information of data will be processed described in obtaining from described application data concordance list; Using the globally unique identifier in described identification information as data disk filename.

In addition, internal storage data concordance list described here creates in internal memory automatically when application server starts, and can record the identification information being stored in data in EMS memory in described internal storage data concordance list.

S160: described application server processes described data to be processed, and according to result data point reuse internal storage data concordance list.

In certain embodiments, application server can process described data to be processed, and according to result data point reuse internal storage data concordance list.Application server carries out process to described data to be processed can determine corresponding disposal route according to concrete application.

S170: described result data are stored in local disk by described application server, and according to described result data point reuse application data concordance list.

In certain embodiments, described result data can be stored in local disk by application server, and according to described result data point reuse application data concordance list.Concrete, by reference to the accompanying drawings 4, can comprise:

S171: reading application data concordance list.

Application server can reading application data concordance list.

S172: judge whether described result data are the data increased.

Application server can judge whether described result data are the data increased.Concrete, in certain embodiments, whether application server can inquire about local disk the data with described result data match, if do not mate, judges that described result data are the data increased.Otherwise, judge that described result data are not the data increased.

S173: when described being judged as YES, determines the identification information of described result data, by described identification information recording at described application data concordance list, and described result data is stored in local disk.

In certain embodiments, when application server judges that described result data are new datas, the identification information of described result data can be determined, by described identification information recording at described application data concordance list, and described result data are stored in local disk.

Further, in certain embodiments, describedly determine that the identification information of described result data comprises: the globally unique identifier generating described result data; Globally unique identifier according to described result data generates local disk filename, and wherein, described local disk filename is for identifying the described memory location of result data in local disk.

Further, determine that the identification information of described result data can also comprise and determine other result data identification information described by system as the case may be.

Further, in certain embodiments, described described identification information recording can be comprised at application data concordance list: search insertion point according to the data type of described result data and/data geographic coordinate at described application data concordance list; Back end is created in described insertion point; By described identification information recording at described back end.

Described result data are stored in local disk by S174: when described being judged as NO, and keep presetting amendment mark to application data concordance list.

In certain embodiments, when application server judges that described result data are not the data newly increased, described result data can be stored in local disk, and keep presetting amendment mark to application data concordance list.

In certain embodiments, after step S170, also comprise:

S180: application server by described result data upload to shared server.

In certain embodiments, application server can by described result data upload to shared server.Namely also shared server obtains and shares data and can also comprise shared server and receive result data that described application server uploads as shared data.Concrete, by reference to the accompanying drawings 5, can comprise:

S181: send the locking request to shared data directory to shared server.

Application server can to the locking request of shared server transmission to shared data directory.In certain embodiments, when shared server receives the locking request to shared data directory of application server transmission, can judge whether current be locking state.When described being judged as YES, shared server can send the information of the described hypothesis request of refusal to application server, also namely representing currently has had other servers to operate concordance list; When described being judged as NO, shared server adds latching operation to shared data directory, preserves amendment mark, and feeds back successful locking messages to application server.

S182: after the success message that locks receiving shared server feedback, send described result data to shared server.

In certain embodiments, application server can after the success message that locks receiving shared server feedback, and send described result data to shared server, described data result data are as shared data.Accordingly, shared server can determine the identification information of described shared data, and by the identification information recording of described shared data determined at shared data directory.

S183: send unlocking request to shared server.

In certain embodiments, application server can send unlocking request to shared server.Accordingly, shared server, after receiving the unlocking request that application server sends, needs to judge that whether described application server is the requesting party of current lock; When described being judged as YES, shared server can carry out unlocking operation; When described being judged as NO, shared server can not operate.

As can be seen here, the technical scheme that the embodiment of the method for the data storage processing in a kind of oil reservoir synthetic study of the application provides will share the shared disk that data are stored in shared server, then application server obtains pending data from shared disk, and be stored into local disk, and in local internal memory, data are processed, again by result data upload to shared server, not only achieve data sharing, also because data carry out in this locality processing the security that ensure that data, the data processing method utilizing the embodiment of the present application to provide can improve precision and the Optimal Development scheme of oil reservoir explanation greatly.

Below introduce the system of a kind of data processing of the application, by reference to the accompanying drawings 6, this system 600 comprises: shared server and application server, but it should be noted that, for an explanation that application server carries out in figure 6, but in the process of reality execution, the system of this data processing can comprise a shared server and multiple application server shared the data in this shared server, is specifically described below to each structure in the system of above-mentioned data processing:

Described shared server comprises the first data capture unit, for obtaining shared data, and by the identification information storage of described shared data to sharing data directory, described shared data is stored to shared disk;

Described application server comprises the second data capture unit, described shared data directory is read in from described shared server for described application server, and the data name obtained from described shared data directory in described shared data in pending data identification information and/or data geographic coordinate, and obtain pending data according to described data name and/or described data geographic coordinate from described shared disk, and by the identification information storage of described pending data to application data concordance list; Data storage cell, for the Non-seismology data in described pending data is stored to local disk, and the Documents Logical creating the geological data in described pending data maps, and described Documents Logical mapping is stored in local disk; 3rd data capture unit, for obtaining data name in the identification information of described pending data and/or data geographic coordinate from described application data concordance list, and according to described data name and/or the described data geographic coordinate pending data acquisition data to be processed from local disk; Data import unit, for the described Non-seismology data that will process in data is loaded on internal memory, and load the basic earthquake data message of described geological data to internal memory according to the Documents Logical mapping of the described geological data that will process in data from shared server, the virtual disk files of data will be processed described in creating in internal memory, and using the described globally unique identifier that will process data as data disk filename, and by the described identification information storage that will process data to internal storage data concordance list; Data processing unit processes described data to be processed, and according to result data point reuse internal storage data concordance list; Data storage cell, for described result data are stored in local disk, and according to described result data point reuse application data concordance list.

In certain embodiments, described shared server obtains to be shared data and comprises: described shared server obtains external data as shared data, and/or described shared server receives result data that described application server uploads as shared data.

In certain embodiments, described first data capture unit comprises:

Adding lock module, for obtaining external data, using described external data as shared data, and latching operation being added to shared data directory;

First logging modle, for determining the identification information of described shared data, by the identification information recording of described shared data determined at shared data directory;

First unlocking operation module, for described shared data are stored in shared disk, and carries out unlocking operation to shared data directory.

In certain embodiments, described first data capture unit comprises:

Receive request module, for receiving the locking request that described application server sends;

Message feedback module, for adding latching operation in response to described locking request to shared data directory, and complete add latching operation after return to described application server the success message that locks;

Described result data for receiving the result data that described application server is uploaded after receiving the success message that locks of shared server feedback, and are stored to shared disk as shared data by the second data memory module;

Second logging modle, for determining the identification information of described shared data, and by the identification information recording of described shared data determined at shared data directory;

Second unlocking operation module, for receiving the unlocking request returned of described application server, and carries out unlocking operation to described shared data directory.

In certain embodiments, it is characterized in that, describedly determine that the identification information of described shared data comprises:

First globally unique identifier's generation module, for generating the globally unique identifier of described shared data;

First disk file name generation module, generate shared disk filename for the globally unique identifier according to described shared data, wherein, described shared disk filename is for identifying the described memory location of shared data in shared disk.

In certain embodiments, the identification information of described shared data also comprises: the C++ class name of node name, father node name, data, data name, data type, version information and data generation time.

In certain embodiments, the described identification information storage by described pending data comprises to application data concordance list:

3rd logging modle, for determining the identification information of described pending data, and by the identification information recording of described pending data determined at application data concordance list.

In certain embodiments, describedly determine that the identification information of described pending data comprises:

Second globally unique identifier's generation module, for generating the globally unique identifier of described pending data;

Second disk filename generation module, generate local disk filename for the globally unique identifier according to described pending data, wherein, described local disk filename is for identifying the described memory location of pending data in local disk.

In certain embodiments, the identification information of described pending data also comprises: the C++ class name of node name, father node name, child node list of file names, data, data type, data generation time.

In certain embodiments, described the described identification information storage that will process data to be comprised to internal storage data concordance list:

4th logging modle, for determining the described identification information that will process data, and will process the identification information recording of data at internal storage data concordance list described in determining.

In certain embodiments, describedly determine that the described identification information that will process data comprises:

First concordance list read module, for reading described application data concordance list;

Identification information acquisition module, for processing the identification information of data described in obtaining from described application data concordance list;

Identification information processing module, for using the globally unique identifier in described identification information as data disk filename.

In certain embodiments, the described identification information that will process data also comprises: the C++ class name of node name, father node name, child node list of file names, data, data type, data generation time.

In certain embodiments, described result data are stored in local disk by described application server, and application data concordance list comprises according to described result data point reuse:

Second concordance list read module, for reading application data concordance list;

First judge module, for judging whether described result data are the data increased;

First data processing module, for when described in be judged as YES time, determine the identification information of described result data, by described identification information recording at described application data concordance list, and described result data be stored in local disk.

In certain embodiments, described result data are stored in local disk by described application server, and application data concordance list also comprises according to described result data point reuse:

Second data processing module, for when described in be judged as NO time, described result data are stored in local disk, and keep presetting amendment mark to application data concordance list.

In certain embodiments, describedly determine that the identification information of described result data comprises:

3rd globally unique identifier's generation module, for generating the globally unique identifier of described result data;

3rd disk file name generation module, generate local disk filename for the globally unique identifier according to described result data, wherein, described local disk filename is for identifying the described memory location of pending data in local disk.

In certain embodiments, the identification information of described result data also comprises: the C++ class name of node name, father node name, child node list of file names, data, data name, data type, data geographic coordinate, data generation time.

In certain embodiments, the identification information of described result data also comprises: display attribute information.

As can be seen here, the technical scheme that the method and system embodiment of the data storage processing in a kind of oil reservoir synthetic study of the application provides will be stored in the data loading of shared server to application server local disk, and in local internal memory, data are processed, again by result data upload to shared server, not only achieve data sharing, also because data process in this locality, thus ensure that the security of data, the data processing method utilizing the embodiment of the present application to provide can improve precision and the Optimal Development scheme of oil reservoir explanation greatly.

In the nineties in 20th century, it is improvement (such as, to the improvement of the circuit structures such as diode, transistor, switch) on hardware or the improvement (improvement for method flow) on software that improvement for a technology can clearly be distinguished.But along with the development of technology, the improvement of current a lot of method flows can be considered as the direct improvement of hardware circuit.Designer nearly all obtains corresponding hardware circuit by being programmed in hardware circuit by the method flow of improvement.Therefore, the improvement of not talkative method flow just can not realize by hardware entities module.Such as, programmable logic device (PLD) (Programmable Logic Device, PLD) (such as field programmable gate array (Field Programmable Gate Array, FPGA) be exactly) so a kind of integrated circuit, its logic function is determined device programming by user.Programmed voluntarily a digital display circuit " integrated " on a slice PLD by designer, and do not need chip maker to carry out the special integrated circuit (IC) chip of designing and making 2.And, nowadays, replace and manually make integrated circuit (IC) chip, this programming is also used instead mostly " logic compiler (logic compiler) ", and software realizes, it and program development is write time software compiler used similar, and source code before will compiling also handy specific programming language write, this is referred to as hardware description language (HardwareDescription Language, HDL), and HDL also not only has one, but have many kinds, as ABEL (AdvancedBoolean Expression Language), AHDL (Altera Hardware Description Language), Confluence, CUPL (Cornell University Programming Language), HDCal, JHDL (Java Hardware DescriptionLanguage), Lava, Lola, MyHDL, PALASM, RHDL (Ruby Hardware Description Language) etc., the most generally use VHDL (Very-High-Speed Integrated Circuit Hardware DescriptionLanguage) and Verilog2 at present.Those skilled in the art also should be clear, only needs method flow is slightly made programming in logic with above-mentioned several hardware description language and is programmed in integrated circuit, just can be easy to the hardware circuit of this logical method flow process accomplished.

Controller can realize by any suitable mode, such as, controller can be taked such as microprocessor or processor and store the computer-readable medium of the computer readable program code (such as software or firmware) that can be performed by this (micro-) processor, logic gate, switch, special IC (Application Specific Integrated Circuit, ASIC), the form of programmable logic controller (PLC) and embedding microcontroller, the example of controller includes but not limited to following microcontroller: ARC 625D, AtmelAT91SAM, Microchip PIC18F26K20 and Silicone Labs C8051F320, Memory Controller can also be implemented as a part for the steering logic of storer.

Those skilled in the art also know, except realizing except controller in pure computer readable program code mode, controller can be made to realize identical function with the form of logic gate, switch, special IC, programmable logic controller (PLC) and embedding microcontroller etc. by method step being carried out programming in logic completely.Therefore this controller can be considered to a kind of hardware component, and to the structure that also can be considered as the device realizing various function in hardware component comprised in it.Or even, the device being used for realizing various function can be considered as not only can be implementation method software module but also can be structure in hardware component.

System, device, module or unit that above-described embodiment is illustrated, specifically can be realized by computer chip or entity, or be realized by the product with certain function.

For convenience of description, various unit is divided into describe respectively with function when describing above device.Certainly, the function of each unit can be realized in same or multiple software and/or hardware when implementing the application.

As seen through the above description of the embodiments, those skilled in the art can be well understood to the mode that the application can add required general hardware platform by software and realizes.Based on such understanding, the technical scheme of the application can embody with the form of software product the part that prior art contributes in essence in other words, in one typically configuration, computing equipment comprises one or more processor (CPU), input/output interface, network interface and internal memory.This computer software product can comprise the method some part described in of some instructions in order to make a computer equipment (can be personal computer, server, or the network equipment etc.) perform each embodiment of the application or embodiment.This computer software product can be stored in internal memory, internal memory may comprise the volatile memory in computer-readable medium, the forms such as random access memory (RAM) and/or Nonvolatile memory, as ROM (read-only memory) (ROM) or flash memory (flash RAM).Internal memory is the example of computer-readable medium.Computer-readable medium comprises permanent and impermanency, removable and non-removable media can be stored to realize information by any method or technology.Information can be computer-readable instruction, data structure, the module of program or other data.The example of the storage medium of computing machine comprises, but be not limited to phase transition internal memory (PRAM), static RAM (SRAM), dynamic RAM (DRAM), the random access memory (RAM) of other types, ROM (read-only memory) (ROM), Electrically Erasable Read Only Memory (EEPROM), fast flash memory bank or other memory techniques, read-only optical disc ROM (read-only memory) (CD-ROM), digital versatile disc (DVD) or other optical memory, magnetic magnetic tape cassette, tape magnetic rigid disk stores or other magnetic storage apparatus or any other non-transmitting medium, can be used for storing the information can accessed by computing equipment.According to defining herein, computer-readable medium does not comprise of short duration computer readable media (transitory media), as data-signal and the carrier wave of modulation.

Each embodiment in this instructions all adopts the mode of going forward one by one to describe, between each embodiment identical similar part mutually see, what each embodiment stressed is the difference with other embodiments.Especially, for system embodiment, because it is substantially similar to embodiment of the method, so description is fairly simple, relevant part illustrates see the part of embodiment of the method.

The application can be used in numerous general or special purpose computing system environments or configuration.Such as: personal computer, server computer, handheld device or portable set, laptop device, multicomputer system, system, set top box, programmable consumer-elcetronics devices, network PC, small-size computer, mainframe computer, the distributed computing environment comprising above any system or equipment etc. based on microprocessor.

The application can describe in the general context of computer executable instructions, such as program module.Usually, program module comprises the routine, program, object, assembly, data structure etc. that perform particular task or realize particular abstract data type.Also can put into practice the application in a distributed computing environment, in these distributed computing environment, be executed the task by the remote processing devices be connected by communication network.In a distributed computing environment, program module can be arranged in the local and remote computer-readable storage medium comprising memory device.

Although depict the application by embodiment, those of ordinary skill in the art know, the application has many distortion and change and do not depart from the spirit of the application, and the claim appended by wishing comprises these distortion and change and do not depart from the spirit of the application.

Claims (18)

1. the method for the data storage processing in an oil reservoir synthetic study, it is characterized in that, data in described oil reservoir synthetic study are divided into three grades: the first order is the shared data be stored in shared server, and the second level is be stored in the local data on application server local disk; The third level is be stored in the internal storage data on application server memory virtual disk, and this data processing method comprises:

Described shared server obtains shares data, and by the identification information storage of described shared data to sharing data directory, described shared data is stored to shared disk;

Described application server reads in described shared data directory from described shared server, and the data name obtained from described shared data directory in described shared data in pending data identification information and/or data geographic coordinate, and obtain pending data according to described data name and/or described data geographic coordinate from described shared disk, and by the identification information storage of described pending data to application data concordance list;

Non-seismology data in described pending data is stored to local disk by described application server, and the Documents Logical creating the geological data in described pending data maps, and described Documents Logical mapping is stored in local disk;

Described application server obtains data name the identification information of described pending data and/or data geographic coordinate from described application data concordance list, and according to described data name and/or the described data geographic coordinate pending data acquisition data to be processed from local disk;

The described Non-seismology data that will process in data is loaded on internal memory by described application server, and load the basic earthquake data message of described geological data to internal memory according to the Documents Logical mapping of the described geological data that will process in data from shared server, the virtual disk files of data will be processed described in creating in internal memory, and using the described globally unique identifier that will process data as data disk filename, and by the described identification information storage that will process data to internal storage data concordance list;

Described application server processes described data to be processed, and according to result data point reuse internal storage data concordance list;

Described result data are stored in local disk by described application server, and according to described result data point reuse application data concordance list.

2. method according to claim 1, it is characterized in that, described shared server obtains to be shared data and comprises: described shared server obtains external data as shared data, and/or described shared server receives result data that described application server uploads as shared data.

3. method according to claim 2, is characterized in that, described shared server obtains external data as shared data, and by the identification information storage of described shared data to sharing data directory, described shared data being stored to shared disk and comprising:

Described shared server obtains external data, using described external data as shared data, and adds latching operation to shared data directory;

Determine the identification information of described shared data, by the identification information recording of described shared data determined at shared data directory;

Described shared data are stored in shared disk, and unlocking operation is carried out to shared data directory.

4. method according to claim 2, it is characterized in that, described shared server receives result data that described application server uploads as shared data, and by the identification information storage of described shared data to sharing data directory, described shared data being stored to shared disk and comprising:

Receive the locking request that described application server sends;

In response to described locking request, latching operation is added to shared data directory, and complete add latching operation after return to described application server the success message that locks;

Receive the result data that described application server is uploaded after receiving the success message that locks of shared server feedback, and described result data are stored to shared disk as shared data;

Determine the identification information of described shared data, and by the identification information recording of described shared data determined at shared data directory;

Receive the unlocking request returned of described application server, and unlocking operation is carried out to described shared data directory.

5. the method according to any one of claim 3 or 4, is characterized in that, describedly determines that the identification information of described shared data comprises:

Generate the globally unique identifier of described shared data;

Globally unique identifier according to described shared data generates shared disk filename, and wherein, described shared disk filename is for identifying the described memory location of shared data in shared disk.

6. method according to claim 5, is characterized in that, the identification information of described shared data also comprises: the C++ class name of node name, father node name, data, data name, data type, version information and data generation time.

7. method according to claim 1, is characterized in that, the described identification information storage by described pending data comprises to application data concordance list:

Determine the identification information of described pending data, and by the identification information recording of described pending data determined at application data concordance list.

8. according to the method described in claim 7, it is characterized in that, describedly determine that the identification information of described pending data comprises:

Generate the globally unique identifier of described pending data;

Globally unique identifier according to described pending data generates local disk filename, and wherein, described local disk filename is for identifying the described memory location of pending data in local disk.

9. method according to claim 8, is characterized in that, the identification information of described pending data also comprises: the C++ class name of node name, father node name, child node list of file names, data, data type, data generation time.

10. method according to claim 1, is characterized in that, describedly the described identification information storage that will process data is comprised to internal storage data concordance list:

Determine the described identification information that will process data, and the identification information recording of data will be processed at internal storage data concordance list described in determining.

11., according to the method described in claim 10, is characterized in that, describedly determine that the described identification information that will process data comprises:

Read described application data concordance list;

The identification information of data will be processed described in obtaining from described application data concordance list;

Using the globally unique identifier in described identification information as data disk filename.

12. methods according to claim 11, is characterized in that, the described identification information that will process data also comprises: the C++ class name of node name, father node name, child node list of file names, data, data type, data generation time.

13. methods according to claim 1, is characterized in that, described result data are stored in local disk by described application server, and application data concordance list comprises according to described result data point reuse:

Reading application data concordance list;

Judge whether described result data are the data increased;

When described being judged as YES, determine the identification information of described result data, by described identification information recording at described application data concordance list, and described result data are stored in local disk.

14. methods according to claim 13, is characterized in that, described result data are stored in local disk by described application server, and application data concordance list also comprises according to described result data point reuse:

When described being judged as NO, described result data are stored in local disk, and keep presetting amendment mark to application data concordance list.

15. methods according to any one of claim 13 or 14, is characterized in that, describedly determine that the identification information of described result data comprises:

Generate the globally unique identifier of described result data;

Globally unique identifier according to described result data generates local disk filename, and wherein, described local disk filename is for identifying the described memory location of pending data in local disk.

16. methods according to claim 15, it is characterized in that, the identification information of described result data also comprises: the C++ class name of node name, father node name, child node list of file names, data, data name, data type, data geographic coordinate, data generation time.

17. methods according to claim 16, is characterized in that, the identification information of described result data also comprises: display attribute information.

The system of the data storage processing in 18. 1 kinds of oil reservoir synthetic studies, is characterized in that, this system comprises: shared server and application server;

Described shared server comprises the first data capture unit, for obtaining shared data, and by the identification information storage of described shared data to sharing data directory, described shared data is stored to shared disk;

Described application server comprises the second data capture unit, described shared data directory is read in from described shared server for described application server, and the data name obtained from described shared data directory in described shared data in pending data identification information and/or data geographic coordinate, and obtain pending data according to described data name and/or described data geographic coordinate from described shared disk, and by the identification information storage of described pending data to application data concordance list; Data storage cell, for the Non-seismology data in described pending data is stored to local disk, and the Documents Logical creating the geological data in described pending data maps, and described Documents Logical mapping is stored in local disk; 3rd data capture unit, for obtaining data name in the identification information of described pending data and/or data geographic coordinate from described application data concordance list, and according to described data name and/or the described data geographic coordinate pending data acquisition data to be processed from local disk; Data import unit, for the described Non-seismology data that will process in data is loaded on internal memory, and load the basic earthquake data message of described geological data to internal memory according to the Documents Logical mapping of the described geological data that will process in data from shared server, the virtual disk files of data will be processed described in creating in internal memory, and using the described globally unique identifier that will process data as data disk filename, and by the described identification information storage that will process data to internal storage data concordance list; Data processing unit processes described data to be processed, and according to result data point reuse internal storage data concordance list; Data storage cell, for described result data are stored in local disk, and according to described result data point reuse application data concordance list.