CN108023733A - A kind of airborne high-power synthesization platform and the configurable upper and lower method for electrically realized based on the platform - Google Patents
A kind of airborne high-power synthesization platform and the configurable upper and lower method for electrically realized based on the platform Download PDFInfo
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- CN108023733A CN108023733A CN201711120564.9A CN201711120564A CN108023733A CN 108023733 A CN108023733 A CN 108023733A CN 201711120564 A CN201711120564 A CN 201711120564A CN 108023733 A CN108023733 A CN 108023733A
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
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- H—ELECTRICITY
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Abstract
A kind of airborne high-power synthesization platform of the present invention and embedded synthesization task processing system technical field is belonged to based on the configurable upper and lower method for electrically that the platform is realized.A kind of airborne high-power synthesization platform of the invention includes system controller module SC;Power module PSM;Network exchange module NSM;General data processing module GPP;Digital signal processing module SPM;Massive store/numerical map module MMM;Graph image module GPM;The function modules such as input/output module IOM.The present invention is to cause big power network fluctuation, voltage instability and the excessive situation of electricity consumption in the case of supply network general power scarcity to solve the problems, such as that system altitude synthesization platform is excessive to supply network impact in the upper and lower electric process of airborne circumstance, realize that the influence in power supply process to whole supply network minimizes, also ensure that integrated treatment platform is operated with the configuration of optimal performance process resource at the same time, it is ensured that the operation of systemic-function.
Description
Technical field
A kind of airborne high-power synthesization platform of the present invention and belonged to based on the configurable upper and lower method for electrically that the platform is realized
Embedded synthesization task processing system technical field
Background technology
, will be multiple with the development further improved with avionics task synthesization of airborne avlomcs system integration degree
Task system, while more deep synthesis between each task system is required, therefore the hardware function of integrated treatment platform
Performance improves, increasing number, causes the power consumption of processing platform significantly to provide, designs here towards high-power Integrated system
Configurable upper and lower method for electrically, solves system altitude synthesization platform and supply network is rushed in the upper and lower electric process of airborne circumstance
Hit excessive the problem of causing power network fluctuation big, voltage instability and in the case of supply network general power scarcity electricity consumption it is excessive
Situation, realizes that the influence in power supply process to whole supply network minimizes, while also ensures integrated treatment platform with most
The configuration operating of dominance energy process resource, it is ensured that the operation of systemic-function.
The content of the invention
The purpose of the present invention:In order to solve system altitude synthesization platform in the upper and lower electric process of airborne circumstance to power supply
Network-impacting excessive the problem of causing big power network fluctuation, voltage instability and the electricity consumption in the case of supply network general power scarcity
Excessive situation, realizes that the influence in power supply process to whole supply network minimizes, while also ensures that General Office pats
Platform is operated with the configuration of optimal performance process resource, it is ensured that the operation of systemic-function.
Technical scheme:A kind of airborne high-power synthesization platform, the platform include following functions module:
A) power module PSM:For all functions module for power supply of airborne high-power synthesization platform;
B) system controller module SC:It is the master controller of airborne high-power synthesization platform, carries out airborne high-power comprehensive
The various decision-makings of combination platform;
C) network exchange module NSM;There is provided function of network exchange for airborne high-power synthesization platform, for all modules it
Between data exchange provide path;
D) high-capacity storage module MMM:Support that airborne high-power synthesization platform provides configuration data, routine data is deposited
Storage;
E) module I OM is output and input:Discrete interface processing function is provided for airborne high-power synthesization platform.
The platform further includes numerical map module DMM, which provides digitally for airborne high-power synthesization platform
Figure function and massive store function.
The platform further includes general data processing module GPP, which is set using high-performance multiprocessor parallel processing
Meter, comprehensive processing function and data exchanging function are provided for airborne high-power synthesization platform.
The platform further includes digital signal processing module SPM, which provides number for airborne high-power synthesization platform
Word signal processing function.
The platform further includes digital signal processing module SPM, which provides number for airborne high-power synthesization platform
Word signal processing function.
The platform further includes graph image module GPM, which provides graphic diagram for airborne high-power synthesization platform
As processing function.
The platform further includes graph image module GPM, which provides graphic diagram for airborne high-power synthesization platform
As processing function.
The platform further includes graph image module GPM, which provides graphic diagram for airborne high-power synthesization platform
As processing function.
The platform further includes graph image module GPM, which provides graphic diagram for airborne high-power synthesization platform
As processing function.
The configurable upper and lower method for electrically that a kind of airborne high-power synthesization platform is realized, the method take following steps:
1) priority level of airborne high-power synthesization platform all functions module is classified and is defined:
A) definition set a:Set a is the core key module of the minimal set of airborne high-power synthesization platform operation,
The function of realization includes power supply, system control, network exchange, and function module includes PSM, SC, NSM;Set a is airborne high-power
Priority in synthesization platform is height;During airborne high-power synthesization platform powers on, airborne high-power synthesization platform
The function module of set a is powered at first;Under airborne high-power synthesization platform during electricity, finally to the work(of set a
Energy module carries out lower electricity;
B) definition set b:Set b is the critical function module of airborne high-power synthesization platform operation, the function of realization
Including system configuration, data storage, the processing of vital task, function module includes MMM, DMM;Set b is airborne high-power comprehensive
During priority in combination platform is, the significance level of set b is only second to set a;
C) definition set c:Set c is airborne high-power synthesization platform task function module collection, the function bag of realization
Include data processing, Digital Signal Processing, graph and image processing, input/output interface processing, function module include GPP, SPM,
GPM、IOM;The priority level of set c is low;
2) power on strategy and take following steps:
When a) powering on, airborne high-power synthesization platform is first powered on to PSM;After PSM power-up is working properly, PSM is according to collection
The class definition for closing a is powered to remaining function module of set a;
B) after set a normal works, SC identifying system powering modes, SC is provided further according to the powering mode of current system
Output power makes a policy;
C) when system is in normal power supply pattern, SC give PSM send instruction, configuration PSM to set b, set c own
Function module powers up;PSM first powers up the function module of set b, and then the function module of set c is powered up again;
D) when system is in degradation powering mode, SC sends to PSM and instructs, and configuration PSM gives all functions mould of set b
Block powers up, and PSM powers up the function module of set b;
E) when system is in emergency service pattern, PSM does not power up the function module of set b, set c;
3) electric strategy takes following steps under:
A) when system is in normal power supply pattern, SC sends lower electricity instruction to PSM, and PSM is first to the function mould of set c
Electric under block, then again to electric under the function module of set b, PSM is finally to electric under the function module of set a;
B) when system is in degradation powering mode, SC sends lower electricity instruction to PSM, and PSM is first to the function mould of set b
Block powers up, then to electric under the function module of set a;
C) when system is in emergency service pattern, SC sends lower electricity instruction to PSM, and PSM is under the function module of set a
Electricity.
For this method in normal power supply pattern, externally fed equipment is supplied to the confession electric work of airborne high-power synthesization platform
Rate can meet that all functions module normal power-up works;During degradation powering mode, externally fed equipment is supplied to airborne high-power
The output power of synthesization platform can meet core key module and the work of critical function module normal power-up;Emergency service pattern
When, externally fed equipment is supplied to the output power of airborne high-power synthesization platform to meet core key module.
Advantages of the present invention:Suitable power supply strategy is selected according to the actual conditions of supply network, had both ensured that product was in
The state of current optimal processing ability, also ensure that influence of the powerful device to aviation power supply network minimizes as far as possible, protects
That demonstrate,proves aviation power supply network of knowing clearly stablizes output;Ensure the reliable operation of aviation power supply network.
Brief description of the drawings
Fig. 1 power up schematic diagrames of the present invention
The lower electric process schematic diagram of Fig. 2 present invention
Embodiment
Technical scheme:A kind of airborne high-power synthesization platform, the platform include following functions module:
A) power module PSM:For all functions module for power supply of airborne high-power synthesization platform;
B) system controller module SC:It is the master controller of airborne high-power synthesization platform, carries out airborne high-power comprehensive
The various decision-makings of combination platform;
C) network exchange module NSM;There is provided function of network exchange for airborne high-power synthesization platform, for all modules it
Between data exchange provide path;
D) high-capacity storage module MMM:Support that airborne high-power synthesization platform provides configuration data, routine data is deposited
Storage;
E) module I OM is output and input:Discrete interface processing function is provided for airborne high-power synthesization platform.
The platform further includes numerical map module DMM, which provides digitally for airborne high-power synthesization platform
Figure function and massive store function.
The platform further includes general data processing module GPP, which is set using high-performance multiprocessor parallel processing
Meter, comprehensive processing function and data exchanging function are provided for airborne high-power synthesization platform.
The platform further includes digital signal processing module SPM, which provides number for airborne high-power synthesization platform
Word signal processing function.
The platform further includes digital signal processing module SPM, which provides number for airborne high-power synthesization platform
Word signal processing function.
The platform further includes graph image module GPM, which provides graphic diagram for airborne high-power synthesization platform
As processing function.
The platform further includes graph image module GPM, which provides graphic diagram for airborne high-power synthesization platform
As processing function.
The platform further includes graph image module GPM, which provides graphic diagram for airborne high-power synthesization platform
As processing function.
The platform further includes graph image module GPM, which provides graphic diagram for airborne high-power synthesization platform
As processing function.
The configurable upper and lower method for electrically that a kind of airborne high-power synthesization platform is realized, the method take following steps:
1) priority level of airborne high-power synthesization platform all functions module is classified and is defined:
A) definition set a:Set a is the core key module of the minimal set of airborne high-power synthesization platform operation,
The function of realization includes power supply, system control, network exchange, and function module includes PSM, SC, NSM;Set a is in airborne big work(
Priority in rate synthesization platform is height;During airborne high-power synthesization platform powers on, airborne high-power synthesization is put down
Platform at first powers on the function module of set a;Under airborne high-power synthesization platform during electricity, finally to set a's
Function module carries out lower electricity;
B) definition set b:Set b is the critical function module of airborne high-power synthesization platform operation, the function of realization
Including system configuration, data storage, the processing of vital task, function module includes MMM, DMM;Set b is airborne high-power comprehensive
During priority in combination platform is, the significance level of set b is only second to set a;
C) definition set c:Set c is airborne high-power synthesization platform task function module collection, the function bag of realization
Include data processing, Digital Signal Processing, graph and image processing, input/output interface processing, function module include GPP, SPM,
GPM、IOM;The priority level of set c is low;
2) power on strategy and take following steps:
When a) powering on, airborne high-power synthesization platform is first powered on to PSM;After PSM power-up is working properly, PSM is according to collection
The class definition for closing a is powered to remaining function module of set a;
B) after set a normal works, SC identifying system powering modes, SC is provided further according to the powering mode of current system
Output power makes a policy;
C) when system is in normal power supply pattern, SC give PSM send instruction, configuration PSM to set b, set c own
Function module powers up;PSM first powers up the function module of set b, and then the function module of set c is powered up again;
D) when system is in degradation powering mode, SC sends to PSM and instructs, and configuration PSM gives all functions mould of set b
Block powers up, and PSM powers up the function module of set b;
E) when system is in emergency service pattern, PSM does not power up the function module of set b, set c;
3) electric strategy takes following steps under:
A) when system is in normal power supply pattern, SC sends lower electricity instruction to PSM, and PSM is first to the function mould of set c
Electric under block, then again to electric under the function module of set b, PSM is finally to electric under the function module of set a;
B) when system is in degradation powering mode, SC sends lower electricity instruction to PSM, and PSM is first to the function mould of set b
Block powers up, then to electric under the function module of set a;
C) when system is in emergency service pattern, SC sends lower electricity instruction to PSM, and PSM is under the function module of set a
Electricity.
For this method in normal power supply pattern, externally fed equipment is supplied to the confession electric work of airborne high-power synthesization platform
Rate can meet that all functions module normal power-up works;During degradation powering mode, externally fed equipment is supplied to airborne high-power
The output power of synthesization platform can meet core key module and the work of critical function module normal power-up;Emergency service pattern
When, externally fed equipment is supplied to the output power of airborne high-power synthesization platform to meet core key module.
The present invention is described in more detail below in conjunction with the accompanying drawings.
Synthesization technology is applied generally in the airborne high-power synthesization Platform Designing of system, is provided comprehensively for system
Disposal ability and data exchange capability, being typically of function module includes:
A) power module PSM:For all functions module for power supply of airborne high-power synthesization platform;
B) system controller module SC:It is the master controller of airborne high-power synthesization platform, carries out airborne high-power comprehensive
The various decision-makings of combination platform;
C) network exchange module NSM;There is provided function of network exchange for airborne high-power synthesization platform, for all modules it
Between data exchange provide path;
D) high-capacity storage module MMM:Support that airborne high-power synthesization platform provides configuration data, routine data is deposited
Storage;
E) module I OM is output and input:Discrete interface processing function is provided for airborne high-power synthesization platform;
F) numerical map module DMM, the module provide numerical map function and great Rong for airborne high-power synthesization platform
Measure store function;
G) general data processing module GPP, the module use high-performance multiprocessor Parallel processing designs, are airborne big work(
Rate synthesization platform provides comprehensive processing function and data exchanging function;
H) platform further includes digital signal processing module SPM, which provides for airborne high-power synthesization platform
Digital signal processing function;
I) platform further includes graph image module GPM, which provides figure for airborne high-power synthesization platform
Image processing function.
In order to improve disposal ability, module can generally use the design method of high-performance multiprocessor parallel processing, and
The process demand that system generally can be equipped with multiple modules and meet the time according to being actually needed, so gets off, at whole comprehensive core
The power of platform just increases sharply to 1500W or so from original seventy or eighty watts, and the influence to whole supply network can not be ignored;Especially
It is when system is under the situation of emergency service pattern, if comprehensive core processing platform still works comprehensively, it will contract significantly
The time of short emergency service, huge risk is brought for the normal operation of whole system.In order to solve the problems, such as this, present invention design
A kind of configurable upper and lower electricity strategy towards Integrated system, it is ensured that comprehensive core processing platform can pass through the strategy
Timely identifying system powering mode simultaneously enters corresponding operating mode, it is ensured that comprehensive core processing platform is handled with optimal performance to be provided
The configuration operating in source.
Airborne high-power synthesization platform is classified, is classified and is determined to all function modules according to the function of system
Justice:
A) set a-- lease cores functional resources:I.e. airborne high-power synthesization platform decision-making when need to get into smooth
Least resource set, such as PSM, SC, NSM;
B) b-- level critical function resource of set:Significance level is only second to Core Feature resource, i.e., is paid close attention in system level
The higher resource of degree, such as MMM:
C) functional resources that set c-- systems run well:When i.e. supply network runs well needed for system task operation
Other processing platform resources wanted.
When powering on, airborne high-power synthesization platform must assure that all resource powers of set a are normal first, and SC will
Strategy is powered on according to the actual needs progress decision-making next step of the system of acquisition, it is specific as follows:
When a) powering on, PSM power-up is working properly, and then PSM gives other modules of set a according to the configuration definition of set a
Power supply;
1) when system power supply is normal, SC can configure the PSM functional resources power-up all to set b, set c, comprehensive core
Processing platform will be worked comprehensively with highest process performance;
2) when system is worked with contingency mode, SC is by the power-up demand for being actually needed decision-making set b according to system;
B) under in electric process, SC first ensures that set a, set b power supply are normal, then according to system need to configure set a,
The power supply strategy of set b.
Embodiment
The function module resource distribution of airborne high-power synthesization platform includes:
A) 2 pieces of system controller module SC, i.e. SC1, SC2;
B) 2 pieces of power module PSM, i.e. PSM1, PSM2;
C) 2 pieces of network exchange module NSM, i.e. NSM1, NSM2;
D) 6 pieces of general data processing module GPP, i.e. GPP1, GPP2, GPP3, GPP4, GPP5, GPP6;
E) 2 pieces of digital signal processing module SPM, i.e. SPM1, SPM2;
F) 1 piece of high-capacity storage module MMM;
G) 3 pieces of graph image module GPM, i.e. GPM1, GPM2, GPM3;
H) 2 pieces of input/output module IOM, i.e. IOM1, IOM2.
Airborne high-power synthesization platform is classified all function modules according to the function of system, is classified, is defined
Set:
A) definition set a:Set a is the core key module of the minimal set of airborne high-power synthesization platform operation,
The function of realization includes power supply, system control, network exchange, and function module includes PSM1, PSM2, SC1 and NSM1;Set a exists
Priority in airborne high-power synthesization platform is height;It is airborne high-power during airborne high-power synthesization platform powers on
Synthesization platform at first powers on the function module of set a;It is finally right under airborne high-power synthesization platform during electricity
The function module of set a carries out lower electricity;
B) definition set b:Set b is the critical function module of airborne high-power synthesization platform operation, the function of realization
Including system configuration, data storage, the processing of vital task, function module includes SC2, NSM2, MMM;Set b is airborne big
During priority in power synthesization platform is, the significance level of set b is only second to set a;
C) definition set c:Set c is airborne high-power synthesization platform task function module collection, the function bag of realization
Data processing, Digital Signal Processing, graph and image processing, input/output interface processing are included, function module includes GPP1, GPP2,
GPP3, GPP4, GPP5, GPP6, SPM1, SPM2, GPM1, GPM2, GPM3, IOM1, IOM2;The priority level of set c is low;
Supply network generally comprises normal power supply pattern, degradation powering mode and emergency service pattern, normal power supply pattern
When, externally fed equipment is supplied to the output power of airborne high-power synthesization platform to meet all functions module normal power-up
Work;During degradation powering mode, externally fed equipment is supplied to the output power of airborne high-power synthesization platform to meet core
Heart key modules and the work of critical function module normal power-up;During emergency service pattern, externally fed equipment is supplied to airborne big
The output power of power synthesization platform can only meet core key module.
The upper and lower electric process of system is specific as follows:
A) power up requires as follows:
1) PSM1 and PSM2 power-up, gives other modules SC1 and NSM1 of set a to power up after working properly;
2) SC identifies power supply unit, if system has work requirements to set b, to MMM, SC2, NSM2 is powered on successively;
3) if system power supply is normal, if system has set c work requirements, PSM gives GPP1, GPP2 successively,
GPP3, GPP4, GPP5, GPP5, SPM1, SPM2, GPM1, GPM2, GPM3, IOM1, IOM2 power;Otherwise, PSM need not give
The module for power supply of set c.
B) electricity requirement is as follows under ICP:
1) PSM detects system power supply power down, sends power-fail interrupt to all modules, and promptly give all modules of set c
Lower electricity;PSM gives GPP1, GPP2, GPP3, GPP4, GPP5, GPP5, SPM1, SPM2, GPM1, GPM2, GPM3, IOM1 successively,
It is electric under IOM2;
2) PSM enters emergency service pattern.SC obtains system to the work requirements of set b, if without demand, to MMM,
It is electric under SC2, NSM2;
Emergency service disconnects, and PSM is lower electric successively to the module NSM1, SC1 of set a.Subsequent PSM power down.
Claims (10)
1. a kind of airborne high-power synthesization platform, it is characterised in that the platform includes following functions module:
A) power module PSM:For all functions module for power supply of airborne high-power synthesization platform;
B) system controller module SC:It is the master controller of airborne high-power synthesization platform, carries out airborne high-power synthesization
The various decision-makings of platform;
C) network exchange module NSM;Function of network exchange is provided for airborne high-power synthesization platform, between all modules
Data exchange provides path;
D) high-capacity storage module MMM:Airborne high-power synthesization platform is supported to provide the storage of configuration data, routine data;
E) module I OM is output and input:Discrete interface processing function is provided for airborne high-power synthesization platform.
2. the airborne high-power synthesization platform of one kind according to claim 1, it is characterised in that the platform further includes number
Word map module DMM, the module provide numerical map function and massive store function for airborne high-power synthesization platform.
3. the airborne high-power synthesization platform of one kind according to claim 1 or 2, it is characterised in that the platform also wraps
General data processing module GPP is included, which uses high-performance multiprocessor Parallel processing designs, is airborne high-power synthesization
Platform provides comprehensive processing function and data exchanging function.
4. the airborne high-power synthesization platform of one kind according to claim 1 or 2, it is characterised in that the platform also wraps
Digital signal processing module SPM is included, which provides digital signal processing function for airborne high-power synthesization platform.
5. the airborne high-power synthesization platform of one kind according to claim 3, it is characterised in that the platform further includes number
Word signal processing module SPM, the module provide digital signal processing function for airborne high-power synthesization platform.
6. the airborne high-power synthesization platform of one kind according to claim 1 or 2, it is characterised in that the platform also wraps
Graph image module GPM is included, which provides graph and image processing function for airborne high-power synthesization platform.
7. the airborne high-power synthesization platform of one kind according to claim 3, it is characterised in that the platform further includes figure
Shape image module GPM, the module provide graph and image processing function for airborne high-power synthesization platform.
8. the airborne high-power synthesization platform of one kind according to claim 4, it is characterised in that the platform further includes figure
Shape image module GPM, the module provide graph and image processing function for airborne high-power synthesization platform.
9. the airborne high-power synthesization platform of one kind according to claim 5, it is characterised in that the platform further includes figure
Shape image module GPM, the module provide graph and image processing function for airborne high-power synthesization platform.
A kind of 10. configurable upper and lower electricity side that a kind of airborne high-power synthesization platform based on described in claim 9 is realized
Method, it is characterised in that the method takes following steps:
1) priority level of airborne high-power synthesization platform all functions module is classified and is defined:
A) definition set a:Set a is the core key module of the minimal set of airborne high-power synthesization platform operation, is realized
Function include power supply, system control, network exchange, function module includes PSM, SC, NSM;Set a is in airborne high-power synthesis
It is height to change the priority in platform;During airborne high-power synthesization platform powers on, airborne high-power synthesization platform is at first
The function module of set a is powered on;Under airborne high-power synthesization platform during electricity, finally to the function mould of set a
Block carries out lower electricity;
B) definition set b:Set b is the critical function module of airborne high-power synthesization platform operation, and the function of realization includes
System configuration, data storage, the processing of vital task, function module include MMM, DMM;Set b is in airborne high-power synthesization
During priority in platform is, the significance level of set b is only second to set a;
C) definition set c:Set c is airborne high-power synthesization platform task function module collection, and the function of realization includes number
According to processing, Digital Signal Processing, graph and image processing, input/output interface processing, function module include GPP, SPM, GPM,
IOM;The priority level of set c is low;
2) power on strategy and take following steps:
When a) powering on, airborne high-power synthesization platform is first powered on to PSM;After PSM power-up is working properly,
PSM powers according to the class definition of set a to remaining function module of set a;
B) after set a normal works, SC identifying system powering modes, the power supply that SC is provided further according to the powering mode of current system
Power makes a policy;
C) when system is in normal power supply pattern, SC sends to PSM and instructs, and configuration PSM is to set b, all functions of set c
Module powers up;PSM first powers up the function module of set b, and then the function module of set c is powered up again;
D) when system is in degradation powering mode, SC sends to PSM and instructs, and configuration PSM adds to all functions module of set b
Electricity, PSM power up the function module of set b;
E) when system is in emergency service pattern, PSM does not power up the function module of set b, set c;3) electric strategy is adopted under
Take following steps:
A) when system is in normal power supply pattern, SC sends lower electricity instruction to PSM, and PSM is first under the function module of set c
Electricity, then again to electric under the function module of set b, PSM is finally to electric under the function module of set a;
B) when system is in degradation powering mode, SC sends lower electricity instruction to PSM, and PSM first adds the function module of set b
Electricity, then to electric under the function module of set a;
C) when system is in emergency service pattern, SC sends lower electricity instruction to PSM, and PSM is to electric under the function module of set a.
For this method in normal power supply pattern, externally fed equipment is supplied to the output power energy of airborne high-power synthesization platform
Meet that all functions module normal power-up works;During degradation powering mode, externally fed equipment is supplied to airborne high-power synthesis
Core key module and the work of critical function module normal power-up can be met by changing the output power of platform;During emergency service pattern,
Externally fed equipment is supplied to the output power of airborne high-power synthesization platform to meet core key module.
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CN104691761A (en) * | 2014-12-04 | 2015-06-10 | 中国航空工业集团公司第六三一研究所 | Multi-mode hybrid power supply system and method for ICP (integrated core processor) |
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CN102567273A (en) * | 2011-12-29 | 2012-07-11 | 中国航空工业集团公司第六三一研究所 | Miniature integrated core processor based on fiber channel (FC) network |
CN104691761A (en) * | 2014-12-04 | 2015-06-10 | 中国航空工业集团公司第六三一研究所 | Multi-mode hybrid power supply system and method for ICP (integrated core processor) |
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