CN102299938B - Method and device for realizing multicore and multisystem unified platform - Google Patents

Abstract

The invention provides a method and device for realizing a multicore and multisystem unified platform, which are applied to the conventional base station. The method comprises the following steps of: drawing up multiple base station systems, application strategies for applying multiple systems to multiple cores and forwarding strategies of multiple system messages, and distributing uniform interfaces for various base station systems, application strategies and forwarding strategies respectively; acquiring the base station system information and the construction version information of a base station, calling a corresponding drawn-up base station system according to the base station system information, and constructing a corresponding base station system version according to the construction version information; running the base station system version and calling a corresponding drawn-up application strategy and forwarding strategy through corresponding interfaces; and bonding a corresponding microprocessor according to the called application strategy, and forwarding a message according to the called forwarding strategy. Due to the adoption of the method and the device, fusion of base stations of various systems can be realized for a base station platform system, and the expansibility is improved; and the method and device are suitable for multicore systems.

Description

A kind of implementation method and device of the multinuclear multi-modulation scheme unified platform

Technical field

The invention belongs to data communication field, be specifically related to a kind of implementation method and device that is applied to the multinuclear multi-modulation scheme unified platform of Multi-Mode Base Station.

Background technology

Existing base station, the standard that platform is supported is single, and plateform system is mainly carried on vxworks operating system.Along with the development in multimode technology and market, realizing the mutual fusion of various standards base station, but not the base station of single standard.Increasingly mature along with multi-core technology, also more and more higher to the demand of flow system flow and performance, multiple nucleus system application is also more and more extensive, and existing base station platform system obviously cannot meet.Existing base station single-mode, it has following shortcoming:

1. standard is single, cannot realize the mutual fusion of various standards base station.Because existing plateform system is carried on vxworks operating system, its characteristic has determined that plateform system can only carry a resource run entity (that is, software version or software process), thereby cannot realize multimode system.

2. extensibility is bad, cannot meet Multi-Mode Base Station demand.At present, also switch to multi-mode platform system from the base station platform system of single-mode the base station of various standards.As to being loaded in the transition of (SuSE) Linux OS plateform system, but because Linux plateform system application strategy method is more, each standard application strategy is also different, again without unified standard.

3. range of application is less, cannot be applicable to multiple nucleus system.Existing base station system is mainly adapted to single core processor; Even under polycaryon processor environment, be also to see this difference.

Summary of the invention

The object of the invention is to overcome the deficiencies in the prior art, a kind of method and device of realizing the multinuclear multi-modulation scheme unified platform that is applied to existing base station is provided, so that base station platform system can realize the mutual fusion of various standards base station, be applicable to multiple nucleus system, improve extensibility.

In order to solve the problems of the technologies described above, the invention provides a kind of implementation method of the multinuclear multi-modulation scheme unified platform, comprising:

Formulate step, formulate multiple base station standard, multiple systems is applied to the application strategy of multinuclear and the forwarding strategy of multiple systems message, for various base stations standard, application strategy and forwarding strategy configure respectively unified interface;

Build version step, obtain the base station standard information of base station and build version information, according to described base station standard information, call after the base station standard of corresponding formulation, according to building version information, build corresponding base station standard version;

Regulative strategy step, moves after the standard version of described base station, by application strategy and the forwarding strategy of the corresponding formulation of corresponding interface interchange;

Operating procedure, binds corresponding microprocessor according to the described application strategy calling, and the forwarding strategy then calling described in basis carries out the forwarding of message.

Further, said method also has feature below: if described base station is multi-standard base station, in described structure version step, comprise:

Obtain the various base stations standard information of described base station and build accordingly version information with various base stations standard;

According to described various base stations standard information, call the base station standard of corresponding formulation respectively;

According to the base station standard of calling and the corresponding version information that builds, build respectively corresponding base station standard version.

Further, said method also has feature below: the described base station of the operation standard version in described regulative strategy step is specially:

First move a kind of base station standard version of structure, on the standard version of the base station of this operation, load other base station standard version; Or

On the third-party platform of operation, load the various base stations standard version of described structure.

Further, said method also has feature below: in described formulation step,

Described multiple base station standard comprises: time division multiple access standard, frequency division multiple access standard and code division multiple access standard;

The application strategy that described multiple systems is applied to multinuclear comprises: run unit does not bind that microprocessor strategy, run unit are partly bound microprocessor strategy and run unit is bound microprocessor strategy entirely;

The forwarding strategy of described multiple systems message comprises: symmetrical expression multiprocessing mode distribution policy, use media interviews control mode distribution policy and RMOIS mode distribution policy.

Further, said method also has feature below: in described structure version step,

Described structure version information comprises: operational mode and forward mode, and wherein, described operational mode comprises TDD mode and mode of frequency division duplexing; Described forward mode comprises: forward mode and RMOIS forward mode are controlled in symmetrical expression multiprocessing forward mode, use media interviews, wherein,

While adopting described symmetrical expression multiprocessing forward mode or described use media interviews to control forward mode structure base station standard version, the plateform system that carries this base station standard version depends on operating system;

While adopting described RMOIS forward mode to build base station standard version, the plateform system that carries this base station standard version does not rely on operating system.

In order to address the above problem, the present invention also provides a kind of device of realizing the multinuclear multi-modulation scheme unified platform, comprising:

The module of generating strategy, for formulating multiple base station standard, multiple systems is applied to the application strategy of multinuclear and the forwarding strategy of multiple systems message, for various base stations standard, application strategy and forwarding strategy configure respectively unified interface;

Build version module, be connected with the described module of generating strategy, for obtaining the base station standard information of base station and building version information, according to described base station standard information, call the base station standard of corresponding formulation, according to building version information, build corresponding base station standard version;

Regulative strategy module, is connected with described structure version module with the described module of generating strategy, for moving after the standard version of described base station, by application strategy and the forwarding strategy of the corresponding formulation of corresponding interface interchange;

Operation module, is connected with described regulative strategy module, for binding corresponding microprocessor according to described application strategy, then according to described forwarding strategy, carries out the forwarding of message.

Further, said apparatus also has feature below: described structure version module comprises:

Acquiring unit, for obtaining the various base stations standard information of described base station and building accordingly version information with various base stations standard;

Call unit, is connected with described acquiring unit, for calling the base station standard of corresponding formulation according to described various base stations standard information respectively;

Construction unit, is connected with described call unit with described acquiring unit, for building respectively corresponding base station standard version according to the base station standard of calling and the corresponding version information that builds.

Further, said apparatus also has feature below:

Described structure version information comprises: operational mode and forward mode, and wherein, described operational mode comprises TDD mode and mode of frequency division duplexing; Described forward mode comprises: forward mode and RMOIS forward mode are controlled in symmetrical expression multiprocessing forward mode, use media interviews, wherein,

Described structure version module, if build base station standard version for adopting described symmetrical expression multiprocessing forward mode or described use media interviews to control forward mode, the plateform system that carries this base station standard version depends on operating system;

Described structure version module, if for adopting described RMOIS forward mode to build base station standard version, the plateform system that carries this base station standard version does not rely on operating system.

Further, said apparatus also has feature below: described operation module comprises:

Running unit, for moving after a kind of base station standard version or operation third-party platform of structure, triggers loading unit;

Loading unit for loading other base station standard version on the base station standard version at moving row, or loads the various base stations standard version of described structure on the third-party platform of operation.

Further, said apparatus also has feature below:

The multiple base station standard that the described module of generating strategy is formulated comprises: time division multiple access standard, frequency division multiple access standard and code division multiple access standard;

The application strategy that the multiple systems that the described module of generating strategy is formulated is applied to multinuclear comprises: run unit does not bind that microprocessor strategy, run unit are partly bound microprocessor strategy and run unit is bound microprocessor strategy entirely;

The forwarding strategy of the multiple systems message that the described module of generating strategy is formulated comprises: symmetrical expression multiprocessing mode distribution policy, use media interviews control mode distribution policy and RMOIS mode distribution policy.

To sum up, method and the device of realizing the multinuclear multi-modulation scheme unified platform provided by the invention, has following beneficial effect: make base station platform system can realize the mutual fusion of various standards base station, be applicable to Multi-Mode Base Station, be applicable to multiple nucleus system; Make plateform system interface unified, formulated corresponding standard, plateform system extensibility is good; Make plateform system applied widely, compatible monokaryon system, is applicable to again multiple nucleus system simultaneously, is applicable to single mode base station, can be used for again Multi-Mode Base Station, also can be used for the situation that a Physical board or a plurality of Physical board are realized multimode simultaneously; Also can be used for realizing Multi-Mode Base Station on a veneer; Version management separate that makes base station platform system can realize multimode multi-modulation scheme, the base station edition upgrading of a kind of pattern of a kind of standard, renewal, rollback can not have influence on the base station edition operation of a kind of pattern of another standard.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of realizing the device of the multinuclear multi-modulation scheme unified platform of the present invention;

Fig. 2 is the flow chart of the implementation method of the multinuclear multi-modulation scheme unified platform of the present invention.

Embodiment

In order to understand better the present invention, below in conjunction with the drawings and specific embodiments, the present invention is further described.

Fig. 1 is the schematic diagram of realizing the device of the multinuclear multi-modulation scheme unified platform of the present invention, and as shown in Figure 1, device of the present invention can comprise: the module of generating strategy, structure version module, regulative strategy module and operation module.Wherein,

The module of generating strategy can be for formulating multiple base station standard, multiple systems is applied to the application strategy of multinuclear and the forwarding strategy of multiple systems message, for various base stations standard, application strategy and forwarding strategy configure respectively unified interface.

Wherein, the base station standard of formulating can comprise: time division multiple access standard, frequency division multiple access standard and code division multiple access standard, for example, GSM (Global System for Mobile Communications, global system for mobile communications) standard, LTE (Long Term Evolution, Long Term Evolution) standard, CDMA (Code Division Multiple Access, code division multiple access) standard etc.

Wherein, the system applies of formulation can comprise in the application strategy of multinuclear: run unit does not bind that microprocessor strategy, run unit are partly bound microprocessor strategy and run unit is bound microprocessor strategy entirely.

Wherein, the forwarding strategy of the system message of formulation can comprise: (USER MAC) mode distribution policy and RMOIS mode distribution policy are controlled in symmetrical expression multiprocessing (SMP) mode distribution policy, use media interviews.

Build version module and can according to described base station standard information, call the base station standard of corresponding formulation for obtaining the base station standard information of base station and building version information, according to building version information, build corresponding base station standard version.

Regulative strategy module can be for moving after the standard version of described base station, by application strategy and the forwarding strategy of the corresponding formulation of corresponding interface interchange.

Operation module can be bound corresponding microprocessor according to the described application strategy calling, and the forwarding strategy then calling described in basis carries out the forwarding of message.

Wherein, described structure version module can comprise: acquiring unit, call unit and construction unit,

Acquiring unit can be for obtaining the various base stations standard information of described base station and building accordingly version information with various base stations standard;

Call unit is connected with described acquiring unit, can be for calling the base station standard of corresponding formulation according to described various base stations standard information respectively;

Construction unit is connected with described call unit with described acquiring unit, can be for building respectively corresponding base station standard version according to the base station standard of calling and the corresponding version information that builds.

Wherein, described structure version information comprises: operational mode and forward mode, and wherein, described operational mode comprises TDD mode and mode of frequency division duplexing; Described forward mode comprises: forward mode and RMOIS forward mode are controlled in symmetrical expression multiprocessing forward mode, use media interviews.Wherein,

If described structure version module adopts described symmetrical expression multiprocessing forward mode or described use media interviews to control forward mode and builds base station standard version, the plateform system that carries this base station standard version depends on operating system; If described structure version module adopts described RMOIS forward mode to build base station standard version, the plateform system that carries this base station standard version does not rely on operating system.

Wherein, described operation module can comprise: running unit and loading unit, and running unit can, for moving a kind of base station standard version or operation third-party platform of structure, then trigger loading unit; Loading unit can be for loading other base station standard version on the base station standard version at moving row, or on the third-party platform of operation, load the various base stations standard version of described structure.

Fig. 2 is the flow chart of the implementation method of the multinuclear multi-modulation scheme unified platform of the present invention, and as shown in Figure 2, the inventive method can comprise step below:

Step 100, formulates multinuclear multi-modulation scheme strategy.

Multinuclear multi-modulation scheme strategy can comprise: base station standard, software systems corresponding to this base station standard are applied to application strategy and the system message forwarding strategy (when system receives message, being transmitted to the distribution policy of corresponding core) of multinuclear.The software systems of different base station standard can be not identical or identical.

Wherein, base station standard can comprise more than two to three standards, for example, GSM (GlobalSystem for Mobile Communications, global system for mobile communications), LTE (Long Term Evolution, Long Term Evolution), CDMA (Code Division Multiple Access, code division multiple access) etc.Wherein, LTE can be divided into TD (Time Division, time-division)-LTE and FD (FrequencyDivision, frequency division)-LTE etc.

Wherein, system applies comprises more than two to three strategies in the application strategy of multinuclear, and for example, run unit is not bound micro-CPU, micro-CPU that run unit is partly bound multinuclear, micro-CPU that run unit is bound multinuclear completely etc. of multinuclear.The run unit here refers to thread or process.A base station for standard, the corresponding process of its software systems or a plurality of process.

Wherein, system message forwarding strategy can comprise: SMP (Symmetric Multi Processing, symmetrical expression multiprocessing, abbreviation SMP) mode distribution policy, USERMAC (User Media Access Control, use media interviews are controlled, and are called for short USER MAC) mode distribution policy, RMIOS (TheOperationg Sytem of Raza Microelectronics, Inc, the control system of RMI Corp., is called for short RMIOS) method distribution policy etc.

SMP mode distribution policy: be that industry is known, software systems run on operating system, forwards and mainly by the port numbers of transport layer, is undertaken, through protocol stack.

USER MAC mode distribution policy is that software systems run on operating system, forwards in bottom layer driving or interrupt packet receiving place to forward, without protocol stack.

RMIOS method distribution policy is that software systems run on CPU core, and forwarding strategy is directly forwarded on corresponding micro-CPU.

Wherein, be formulated to and make forwarding strategy corresponding with application strategy, for example: application strategy is not for binding, and forwarding strategy is SMP mode distribution policy; Application strategy is partly bound or binding completely, and forwarding strategy is USER MAC mode distribution policy or RMOIS mode distribution policy.

Wherein, the forwarding strategy of arbitrary standard can be selected in arbitrary standard base station.

Wherein, operator can be at this plateform system, formulates multinuclear multi-modulation scheme strategy in background net management or external entity.

Step 101, for the multinuclear multi-modulation scheme strategy of above-mentioned formulation configures unified interface,

Multinuclear multi-modulation scheme policy criteria to above-mentioned formulation is unified, and particularly, unified base station standard comprises more than two to three standards, for example, and GSM, TD-LTE, CDMA etc.; Unified application strategy standard comprises more than two to three application strategy standards, for example, CPU_NO_BINDING (run unit is not bound micro-CPU of multinuclear), CPU_PART_BINDING (run unit is partly bound micro-CPU of multinuclear), CPU_ALL_BINDING (run unit is bound micro-CPU of multinuclear completely).Unified forwarding strategy standard comprises more than two to three forwarding strategy standards, for example, CPU_SMP_RECEIVEING (SMP mode distribution policy), CPU_USERMAC_RECEIVEING (USER MAC mode distribution policy), CPU_RMOIS_RECEIVEING (RMOIS method distribution policy).

Wherein, configuring unified interface can comprise: configure unified base station standard interface, according to application strategy, bind interface and the message repeating policy interface of corresponding core.

Wherein, configuration application strategy is bound interface and the message repeating policy interface of corresponding core, to realize run unit binding microprocessor, the specifying information that application strategy is bound the interface of corresponding core at least comprises the information of process name, process identification (PID), thread name, thread identification, CPU nucleophilic code value etc.Wherein, CPU nucleophilic code value represents that run entity binds corresponding microprocessor.As: the CPU nucleophilic code mask=0x0001 of thread udp_deamon_thread, represent that thread udp_deamon_thread is tied on first microprocessor, this thread will move on No. 1 microprocessor; If CPU nucleophilic code mask=0x000f, represents that thread udp_deamon_thread is tied on the 1st, 2,3, No. 4 microprocessors, represent that this thread may be wherein moving on any one processor at 1,2,3, No. 4 microprocessor.

Step 102, obtains the base station standard information of base station and builds version information, and root root builds version information and builds base station standard version.

Base station builds the information spinner of version and wants to comprise: base station standard information, operational mode information and forward mode information etc.

The concrete base station standard version that builds comprises: according to base station standard information, calls and formulates corresponding base station standard, and according to operational mode information and the corresponding base station of forward mode information architecture standard version.

For example, base station is single system base station, GSM for example, and when platform moves on this base station, base station sends to platform by itself base station standard information, operational mode information and forward mode information, for example, GSM, TDD and SMP forward mode.

Platform gets after the information such as GSM, TDD and SMP forward mode, call established GSM base station standard, mode builds GSM version, and the plateform system of the operation of GSM version is carried on operating system to adopt TDD (Time Division Duplexing, time division duplex).

For example, base station is two standard base stations, for example, comprise GSM and TD-LTE, when platform moves on this base station, base station sends to platform by itself many base stations standard information, operational mode information and forward mode information, for example, and GSM, TDD and SMP forward mode; TD-LTE, TDD and USERMAC forward mode.

Platform gets after above-mentioned information, builds respectively as mentioned above GSM version and TD-LTE version.

If base station is the base station with two above standards, operating principle, with above-mentioned two standard base stations, just repeats no more here.

If getting the structure version information of base station is (TD-LTE, TDD, USER MAC), call the TD-LTE of formulation, adopt TDD mode to build TD-LTE version, the plateform system of carrying TD-LTE version is carried on operating system and has USER MAC function.

If getting the structure version information of base station is (FD-LTE, FDD, RMOIS), call the FD-LTE of formulation, adopt FDD (Frequency Division Duplex, Frequency Division Duplexing (FDD)) mode builds FD-LTE version, and the plateform system of carrying FD-LTE version is not carried on operating system, only possesses RMOIS function.

Step 103, the base station standard version that operation builds.

While adopting SMP mode to build version, the plateform system that carries this version need to depend on operating system.Under this pattern, application strategy is defaulted as run unit and does not bind microprocessor, and forwarding strategy is defaulted as CPU_SMP_RECEIVEING.Because the upper and lower speed of GSM is less than 10Mbps, the lower speed of SMP mode distribution policy can arrive 20-50Mbps, therefore, uses the interface that operating system provides to process under multiple nucleus system, can satisfy the demands.

While adopting USER MAC mode to build version, the plateform system that carries this version need to depend on operating system and have USER MAC function.Under this pattern, USER MAC function has precedence over SMP mode function.Microprocessor partly be bound or entirely be bound to the forwarding strategy of acquiescence can by run unit, and forwarding strategy is defaulted as CPU_USER MAC_RECEIVEING.Because TD-LTE up-downgoing speed need to arrive 300Mbps, and speed can arrive 20---50Mbps under SMP mode, USER MAC mode can arrive 200M---600Mbps, therefore uses SMP mode to satisfy the demands, and described forwarding strategy is preferably used USER MAC mode.

While adopting RMOIS mode to build version, the plateform system of this version is without depending on operating system, and it has RMOIS function.FD-LTE up-downgoing speed need to arrive 500Mbps, and USER MAC mode can arrive 200M---600Mbps, and RMOIS can arrive speed limit 900Mbps.Therefore, forwarding strategy is more suitable for selecting RMOIS mode.

If built a plurality of base stations standard version on plateform system, can distinguish independent operating, for example move respectively GSM version and TD-LTE version; Also can first move the version of one of them, then on the version of this operation, load another version; Also can be to load GSM version and TD-LTE version by third-party platform.After operation GSM version and TD-LTE version, then call respectively corresponding application strategy and the forwarding strategy of formulation.

Step 104, calls respectively corresponding application strategy and the forwarding strategy of formulation, and plateform system carries and be bound to corresponding polycaryon processor according to application strategy.

For example, application strategy is for not binding, and forwarding strategy is SMP mode distribution policy, and corresponding CPU nucleophilic code is 0x0001, represents: do not bind micro-CPU, and CPU nucleophilic code is invalid.

For example, application strategy is part binding, and forwarding strategy is USERMAC mode, and corresponding CPU nucleophilic code is 0x0002, represents: second CPU of running unit binding.

For example, application strategy is full binding, and forwarding strategy is RMOIS mode, and corresponding CPU nucleophilic code is 0x000f, represents: the 1st, 2,3, No. 4 CPU of running unit binding.

Step 105, plateform system E-Packets according to the forwarding strategy of respective calls.

For example, after operation GSM version, call SMP mode distribution policy, the plateform system that carries GSM version runs on operating system, when having corresponding service needed to forward, mainly by the port numbers of transport layer, carries out message repeating, need to pass through protocol stack.

For example, after operation TD-LTE version, call USER MAC mode distribution policy, the plateform system that carries TD-LTE version runs on operating system, when having corresponding service needed to forward, need to or interrupt packet receiving place in bottom layer driving and carry out message repeating, without protocol stack.

For example, after operation FD-LTE version, call RMIOS method distribution policy, the plateform system that carries FD-LTE version runs on CPU core, when having corresponding service needed to forward, directly forwards the packet on corresponding micro-CPU.

The version management of each base station standard on plateform system separate, the base station edition upgrading of a kind of pattern of a kind of standard, renewal, rollback can not have influence on the base station edition operation of a kind of pattern of another standard.

The method and apparatus of realizing the multinuclear multi-modulation scheme unified platform provided by the invention, makes base station platform system can realize the mutual fusion of various standards base station, is applicable to Multi-Mode Base Station, is applicable to multiple nucleus system; Make plateform system interface unified, formulated corresponding standard, plateform system extensibility is good; Make plateform system applied widely, compatible monokaryon system, is applicable to again multiple nucleus system simultaneously, is applicable to single mode base station, can be used for again Multi-Mode Base Station.

One of ordinary skill in the art will appreciate that all or part of step in said method can come instruction related hardware to complete by program, described program can be stored in computer-readable recording medium, as read-only memory, disk or CD etc.Alternatively, all or part of step of above-described embodiment also can realize with one or more integrated circuits.Correspondingly, each the module/unit in above-described embodiment can adopt the form of hardware to realize, and also can adopt the form of software function module to realize.The present invention is not restricted to the combination of the hardware and software of any particular form.

These are only the preferred embodiments of the present invention; certainly; the present invention also can have other various embodiments; in the situation that not deviating from spirit of the present invention and essence thereof; those of ordinary skill in the art are when making according to the present invention various corresponding changes and distortion, but these corresponding changes and distortion all should belong to the protection range of the appended claim of the present invention.

Claims (8)

1. an implementation method for the multinuclear multi-modulation scheme unified platform, comprising:

Formulate step, formulate multiple base station standard, multiple systems is applied to the application strategy of multinuclear and the forwarding strategy of multiple systems message, for various base stations standard, application strategy and forwarding strategy configure respectively unified interface;

Build version step, obtain the base station standard information of base station and build version information, according to described base station standard information, call after the base station standard of corresponding formulation, according to building version information, build corresponding base station standard version;

Regulative strategy step, moves after the standard version of described base station, by application strategy and the forwarding strategy of the corresponding formulation of corresponding interface interchange;

Operating procedure, binds corresponding microprocessor according to the described application strategy calling, and the forwarding strategy then calling described in basis carries out the forwarding of message;

In described formulation step,

Described multiple base station standard comprises: time division multiple access standard, frequency division multiple access standard and code division multiple access standard;

The application strategy that described multiple systems is applied to multinuclear comprises: run unit does not bind that microprocessor strategy, run unit are partly bound microprocessor strategy and run unit is bound microprocessor strategy entirely;

The forwarding strategy of described multiple systems message comprises: symmetrical expression multiprocessing mode distribution policy, use media interviews control mode distribution policy and RMOIS mode distribution policy.

2. the method for claim 1, is characterized in that: if described base station is multi-standard base station, in described structure version step, comprise:

Obtain the various base stations standard information of described base station and build accordingly version information with various base stations standard;

According to described various base stations standard information, call the base station standard of corresponding formulation respectively;

According to the base station standard of calling and the corresponding version information that builds, build respectively corresponding base station standard version.

3. method as claimed in claim 2, is characterized in that: the described base station of the operation standard version in described regulative strategy step is specially:

First move a kind of base station standard version of structure, on the standard version of the base station of this operation, load other base station standard version; Or

On the third-party platform of operation, load the various base stations standard version of described structure.

4. the method for claim 1, is characterized in that: in described structure version step,

Described structure version information comprises: operational mode and forward mode, and wherein, described operational mode comprises TDD mode and mode of frequency division duplexing; Described forward mode comprises: forward mode and RMOIS forward mode are controlled in symmetrical expression multiprocessing forward mode, use media interviews, wherein,

While adopting described symmetrical expression multiprocessing forward mode or described use media interviews to control forward mode structure base station standard version, the plateform system that carries this base station standard version depends on operating system;

While adopting described RMOIS forward mode to build base station standard version, the plateform system that carries this base station standard version does not rely on operating system.

5. a device of realizing the multinuclear multi-modulation scheme unified platform, comprising:

The module of generating strategy, for formulating multiple base station standard, multiple systems is applied to the application strategy of multinuclear and the forwarding strategy of multiple systems message, for various base stations standard, application strategy and forwarding strategy configure respectively unified interface;

Build version module, be connected with the described module of generating strategy, for obtaining the base station standard information of base station and building version information, according to described base station standard information, call the base station standard of corresponding formulation, according to building version information, build corresponding base station standard version;

Regulative strategy module, is connected with described structure version module with the described module of generating strategy, for moving after the standard version of described base station, by application strategy and the forwarding strategy of the corresponding formulation of corresponding interface interchange;

Operation module, is connected with described regulative strategy module, for binding corresponding microprocessor according to described application strategy, then according to described forwarding strategy, carries out the forwarding of message;

The multiple base station standard that the described module of generating strategy is formulated comprises: time division multiple access standard, frequency division multiple access standard and code division multiple access standard;

The application strategy that the multiple systems that the described module of generating strategy is formulated is applied to multinuclear comprises: run unit does not bind that microprocessor strategy, run unit are partly bound microprocessor strategy and run unit is bound microprocessor strategy entirely;

The forwarding strategy of the multiple systems message that the described module of generating strategy is formulated comprises: symmetrical expression multiprocessing mode distribution policy, use media interviews control mode distribution policy and RMOIS mode distribution policy.

6. device as claimed in claim 5, is characterized in that: described structure version module comprises:

Acquiring unit, for obtaining the various base stations standard information of described base station and building accordingly version information with various base stations standard;

Call unit, is connected with described acquiring unit, for calling the base station standard of corresponding formulation according to described various base stations standard information respectively;

Construction unit, is connected with described call unit with described acquiring unit, for building respectively corresponding base station standard version according to the base station standard of calling and the corresponding version information that builds.

7. the device as described in claim 5 or 6, is characterized in that:

Described structure version information comprises: operational mode and forward mode, and wherein, described operational mode comprises TDD mode and mode of frequency division duplexing; Described forward mode comprises: forward mode and RMOIS forward mode are controlled in symmetrical expression multiprocessing forward mode, use media interviews, wherein,

Described structure version module, if build base station standard version for adopting described symmetrical expression multiprocessing forward mode or described use media interviews to control forward mode, the plateform system that carries this base station standard version depends on operating system;

Described structure version module, if for adopting described RMOIS forward mode to build base station standard version, the plateform system that carries this base station standard version does not rely on operating system.

8. device as claimed in claim 5, is characterized in that: described operation module comprises:

Running unit, for moving after a kind of base station standard version or operation third-party platform of structure, triggers loading unit;

Loading unit for loading other base station standard version on the base station standard version at moving row, or loads the various base stations standard version of described structure on the third-party platform of operation.