CN101844517A - Whole-painting automobile instrument system and implement method - Google Patents

Abstract

The invention discloses a whole-painting automobile instrument system and an implement method. The system comprises a soft processer core A, a multi-path memory controller, a video frame cache controller, a video storage space selector and a display controller, wherein the soft processer core A is used for describing display image data corresponding to an automobile parameter according to an input automobile parameter; the multi-path memory controller is used for applying and processing multiple paths; the video frame cache controller is used for displaying the switching control of a buffer area; the video storage space selector is used for reading the display image data, mixing image data by a mixing and stack algorithm and selecting the video storage space; and the display controller is used for displaying images in real time according to the mixed image data. The implement method comprises the following steps: S1, according to the input automobile parameter, describing the display image data corresponding to the automobile parameter; S2, reading the display image data, and mixing the display image data by the mixing and stack algorithm; and S3, displaying the image in real time according to the mixed image data.

Description

Whole-painting automobile instrument system and implementation method

Technical field

The present invention relates to the auto meter field, particularly a kind of whole-painting automobile instrument and implementation method.

Background technology

At present auto meter mainly contains two kinds of technology, and the one, traditional simulation shows that it is also bigger to use share at present on Chinese market, but great majority are used in the vehicle introduced early stage or lorry, minicar is first-class; The 2nd, digital instrument, some digital instruments appear in present and the joint or wholly foreign-owned enterprise of China.Digital instrument adopts stepping motor version, the analog or digital signal of all the sensors all changes into the digital signal of drive stepping motor, after handling by central processor CPU, drive signal is transported to step motor type indicating instrument separately and makes it work.

Domestic employed automobile is divided into digital watch and simulation table substantially with instrument at present, but is which kind of instrument all exists several problems:

1, the pointer of instrument all is a mechanical structures. owing to be mechanical structures, so, cause instrument can accurately not express present running information through regular meeting's generator tool fault.

2, the dial plate pattern of instrument can not change. and the influence of being produced, the image of instrument are in case after determining and producing, want to change image, and the expense that spend can be very high.

3, often can only be suitable for and a vehicle with a instrument.In a single day a instrument is produced basically can only corresponding a vehicle, if want to be suitable for and other vehicles, needs layout more so, physical construction, and die sinking is then produced.

In recent years, along with the CAN bus is popularized, existing numerous automobile vendors integrate various sensors, the control module of automobile, make in-use performances such as the discharging of automobile, energy-conservation, safety and traveling comfort require to improve constantly, simultaneously, along with the development of large-scale integration circuit technology, can the millions of up to ten million gate circuits of integrated as many as in the single-chip, the function that needs a lot of chips just can finish before can realizing in a chip has greatly improved reliability, has reduced cost; The development technique of the embedded software of many CPU is ripe simultaneously, application in a lot of fields has all obtained success, like this, solved the high reliability of restriction auto meter technology upgrading and the bottleneck of cost technically, made the digital graphics instrument become possibility as the display platform of the various information of automobile.But at present automobile vendor is also few at the work of auto meter, realizes that really the auto meter that the digital graphics of commercial prod shows is also few, more only is to show as auxiliary, shows some Word messages.

Summary of the invention

In order to overcome above-mentioned the deficiencies in the prior art, the invention provides a kind of whole-painting automobile instrument system.

Whole-painting automobile instrument system provided by the invention comprises: be used for drawing and the soft processor of the corresponding display image data of this automobile parameter nuclear A according to the automobile parameter of input; Be used for multi-channel and use the multichannel memory controller of handling; The frame of video cache controller that is used for the display buffer switching controls; Be used to read this display image data, utilize mixing, superposition algorithm blended image data, and select the video storage space finder in video storage space; And be used for display control switch according to the real-time display image of blended image data; Described soft processor nuclear A, multichannel memory controller, frame of video cache controller, display control switch and video storage space finder connect successively.

According to whole-painting automobile instrument system one optimal technical scheme provided by the invention be: described whole-painting automobile instrument system further comprises: some being used for draws and the soft processor of the corresponding display image data of this automobile parameter nuclear B according to the automobile parameter of input; Described some soft processor nuclear B are connected with program run CPU processor A and multichannel memory controller respectively.

According to whole-painting automobile instrument system one optimal technical scheme provided by the invention be: described whole-painting automobile instrument system further comprises: the LCD that is used for display image data; Be used for the parallel image data are converted to the modular converter of the receivable Low Voltage Differential Signal of LCD; And being used for the clock supplying module of display control switch and modular converter, this clock supplying module sends 7 times to the clock of display control switch to modular converter; Described display control switch, modular converter and LCD connect successively, and described clock supplying module is connected with modular converter with display control switch respectively.

According to whole-painting automobile instrument system one optimal technical scheme provided by the invention be: described soft processor nuclear A comprises: the RAM memory device A that program run CPU processor A, local data bus controller A (202), local instruction bus controller A and FPGA are embedded; Described RAM memory device A is connected with local instruction bus controller A with local data bus controller A respectively; Described local data bus controller A is connected with program run CPU processor A with instruction Cache bus A_ILMB by Data Cache bus A_DLMB respectively with local instruction bus controller A; Described program run CPU processor A is connected with treater local bus A_PLB, cpu instruction Cache bus A_IXCL, cpu data Cache bus A_DXCL, the program run CPU processor A quick one way link B_A_FSL to the quick one way link A_B_FSL of program run CPU processor B and program run CPU processor B to program run CPU processor A respectively.

According to whole-painting automobile instrument system one optimal technical scheme provided by the invention be: described soft processor nuclear B comprises: the RAM memory device B that program run CPU processor B, local data bus controller B (302), local instruction bus controller B and FPGA are embedded; Described RAM memory device B is connected with local instruction bus controller B with local data bus controller B respectively; Described local data bus controller B is connected with program run CPU processor B with instruction Cache bus B _ ILMB by Data Cache bus B _ DLMB respectively with local instruction bus controller B; Described program run CPU processor B is connected with treater local bus B_PLB, cpu instruction Cache bus B _ IXCL, cpu data Cache bus B _ DXCL, the program run CPU processor B quick one way link A_B_FSL to the quick one way link B_A_FSL of program run CPU processor A and program run CPU processor A to program run CPU processor B respectively.

According to whole-painting automobile instrument system one optimal technical scheme provided by the invention be: described multichannel memory controller comprises: SDRAM memory device on multi-interface memory controller and the plate; This SDRAM memory device is connected with the multi-interface memory controller, and this multi-interface memory controller is connected with NPI interface, treater local bus B_PLB, cpu instruction Cache bus B _ IXCL, cpu data Cache bus B _ DXCL, treater local bus A_PLB, cpu instruction Cache bus A_IXCL and cpu data Cache bus A_DXCL respectively.

According to whole-painting automobile instrument system one optimal technical scheme provided by the invention be: described display control switch is connected with video data bus VDB, frame of video cache controller bus VFBCB, clock signal clk 1 and frame count GPIO signal Frame Count respectively; Described display control switch is determined current viewing area by frame count GPIO signal Frame Count.

According to whole-painting automobile instrument system one optimal technical scheme provided by the invention be: described video storage space finder is connected with frame count GPIO signal Frame Count with treater local bus A_PLB respectively.

The present invention also provides a kind of whole-painting automobile instrument implementation method, may further comprise the steps: the first step: the automobile parameter according to input is drawn and the corresponding display image data of this automobile parameter; Second step: read this display image data, and utilize mixing, superposition algorithm blended image data; The 3rd step. according to the real-time display image of blended image data.

According to whole-painting automobile instrument implementation method one optimal technical scheme provided by the invention be: the described first step comprises following substep: at first, soft processor nuclear B waits for rotating speed, turns to data; Then, soft processor nuclear A obtains data, comprises rotating speed, water temperature, and oil mass turns to data; Secondly, soft processor nuclear A sends rotating speed to soft processor nuclear B, turns to data; Once more, soft processor nuclear A refresh rate, water temperature, oil mass image; Then, soft processor nuclear B refreshes rotating speed, turns to image; Afterwards, soft processor nuclear A waits for that soft processor nuclear B finishes; At last, soft processor nuclear B sends to refresh and finishes data.

According to whole-painting automobile instrument implementation method one optimal technical scheme provided by the invention be: the described process of drawing is specific as follows: at first, read background image; Secondly, the zone that needs renewal with the background image drawing; Once more, read foreground image; At last, mixed foreground image of stack and background image.

According to whole-painting automobile instrument implementation method one optimal technical scheme provided by the invention be: described second step comprises following substep: at first, soft processor nuclear A and soft processor nuclear B describe the display buffer; Secondly, video storage space finder switches the display buffer; At last, display control switch control display data.

According to whole-painting automobile instrument implementation method one optimal technical scheme provided by the invention be: video storage space finder switches the display buffer concrete steps and is: at first, soft processor nuclear A revises the controlling valu of video storage space finder; Then, video storage space finder sends order to display control switch according to controlling valu by frame count GPIO signal.

According to whole-painting automobile instrument implementation method one optimal technical scheme provided by the invention be: described the 3rd step comprises following substep: at first, display control switch is by multichannel memory controller reading displayed buffer data; Secondly, display control switch produces liquid crystal control sequential; At last, display control switch transmits display data according to liquid crystal control sequential to liquid crystal display LCD.

Beneficial technical effects of the present invention is:

Please replenish advantage of the present invention! (compared with prior art) important!

Description of drawings

Fig. 1 is the frame diagram of whole-painting automobile instrument system of the present invention;

Fig. 2 is the soft processor nuclear A-Frame figure of whole-painting automobile instrument system of the present invention;

Fig. 3 is the soft processor nuclear B frame diagram of whole-painting automobile instrument system of the present invention;

Fig. 4 is the multichannel memory controller frame figure of whole-painting automobile instrument system of the present invention;

Fig. 5 is the display control switch frame diagram of whole-painting automobile instrument system of the present invention;

Fig. 6 is the video storage space finder frame diagram of whole-painting automobile instrument system of the present invention;

Fig. 7 is a whole-painting automobile instrument implementation method overview flow chart of the present invention;

Fig. 8 is a whole-painting automobile instrument implementation method step S1 diagram of circuit of the present invention;

Fig. 9 is a whole-painting automobile instrument implementation method step S1 sequential chart of the present invention;

Figure 10 is that whole-painting automobile instrument implementation method of the present invention is drawn the procedure module block diagram;

Figure 11 is that whole-painting automobile instrument implementation method of the present invention is drawn diagram of circuit;

Figure 12 is a whole-painting automobile instrument implementation method step S2 diagram of circuit of the present invention;

Figure 13 is a whole-painting automobile instrument implementation method step S22 diagram of circuit of the present invention;

Figure 14 is a whole-painting automobile instrument implementation method step S3 diagram of circuit of the present invention.

The specific embodiment

Below in conjunction with drawings and the specific embodiments the present invention is elaborated.

Please refer to Fig. 1 and table 1, the whole-painting automobile instrument system of present embodiment comprises: be used for drawing and the soft processor of the corresponding display image data of this automobile parameter nuclear A101 according to the automobile parameter of input; Be used for multi-channel and use the multichannel memory controller of handling 102; The frame of video cache controller 103 that is used for the display buffer switching controls; Be used to read this display image data, utilize mixing, superposition algorithm blended image data, and select the video storage space finder 105 in video storage space; And be used for display control switch 104 according to the real-time display image of blended image data; Some being used for draws and the soft processor of the corresponding display image data of this automobile parameter nuclear B106 according to the automobile parameter of input; The LCD109 that is used for display image data; Be used for the parallel image data are converted to the modular converter 108 of the receivable Low Voltage Differential Signal of LCD109; And be used for the clock supplying module 107 of display control switch 104 and modular converter 108.

Described soft processor nuclear A101, multichannel memory controller 102, frame of video cache controller 103, display control switch 104 and video storage space finder 105 connect successively; Described some soft processor nuclear B106 are connected with program run CPU processor A 101 and multichannel memory controller 102 respectively; Described display control switch 104, modular converter 108 and LCD109 connect successively, and described clock supplying module 107 is connected with modular converter 108 with display control switch 104 respectively.

Numbering	Title	Function
			????1	????Block?RAM	The embedded RAM of FPGA
??2	??ILMB	Instruct local rambus.
			??3	??DLMB	The local rambus of data.
??4	??MicroBlaze?Processor	The soft processor nuclear that Xilinx provides
			??5	??PLB?ARB	The PLB bus control unit
??6	??IXCL	The Instructions Cache link
			??7	??DXCL	The metadata cache link
??8	??MDM	The Debug controller
			??9	??UART	Serial ports
??11	??Button?gpio	The GPIO of button
			??12	??Flash	The Flash controller
??13	??Interrupt?Controller	Interrupt controller
			??14	??Timer	Timer
??15	??Processor?System?Reset	The system reset controller
			??16	??Clock?Generator	The clock pulse generation unit
??17	??MPMC	The multichannel memory controller

Numbering	Title	Function
			??18	??VFBC	The frame of video cache controller
??19	??Display?Controller	Display control switch
			??20	??VideoMem?gpio	GPIO. is selected in the video storage space
??21	??LCD_LVDS_OUT	Parallel view data is to the modular converter of the receivable Low Voltage Differential Signal of LCD
			??22	??CLK7TO1	The clock supplying module of Display Controller and LCD_LVDS_OUT sends 7 times to the clock of Display Controller module to the LCD_LVDS_OUT module.
??23	??FSL	CPUA and CPUB communication channel

Table 1

Please refer to Fig. 2 and table 2, described soft processor nuclear A comprises: the RAM memory device A204 that program run CPU processor A 201, local data bus controller A202, local instruction bus controller A203 and FPGA are embedded; Described RAM memory device A204 is connected with local instruction bus controller A203 with local data bus controller A202 respectively; Described local data bus controller A202 is connected with program run CPU processor A 201 with instruction Cache bus A_ILMB by Data Cache bus A_DLMB respectively with local instruction bus controller A203; Described program run CPU processor A 201 is connected with the quick one way link A_B_FSL of treater local bus A_PLB, cpu instruction Cache bus A_IXCL, cpu data Cache bus A_DXCL, program run CPU processor A 201 to program run CPU processor B 301 and the quick one way link B_A_FSL of program run CPU processor B 301 to program run CPU processor As 201 respectively.

NO	Title	Describe
			1	?A_microblaze	Program run CPU
2	?A_DLMB	A_microblaze Data Cache bus
			3	?A_ILMB	A_microblaze instruction Cache bus
4	?A_dlmb_cntlr	The local data bus controller
			5	?A_ilmb_cntlr	Local instruction bus controller
6	?A_bram	The RAM memory device that FPGA is embedded

NO	Title	Describe
			7	?A_PLB	The treater local bus connects CPU with each equipment on the PLB
8	?A_IXCL	Cpu instruction Cache bus
			9	?A_DXCL	Cpu data Cache bus
10	?A_B_FSL	A_microblaze is to the quick one way link of B_microblaze
			11	?B_A_FSL	B_microblaze is to the quick one way link of A_microblaze

Table 2

Please refer to Fig. 3 and table 3, described soft processor nuclear B comprises: the RAM memory device B304 that program run CPU processor B 301, local data bus controller B302, local instruction bus controller B303 and FPGA are embedded; Described RAM memory device B304 is connected with local instruction bus controller B303 with local data bus controller B302 respectively; Described local data bus controller B302 is connected with program run CPU processor B 301 with instruction Cache bus B _ ILMB by Data Cache bus B _ DLMB respectively with local instruction bus controller B303; Described program run CPU processor B 301 is connected with the quick one way link B_A_FSL of treater local bus B_PLB, cpu instruction Cache bus B _ IXCL, cpu data Cache bus B _ DXCL, program run CPU processor B 301 to program run CPU processor As 201 and the quick one way link A_B_FSL of program run CPU processor A 201 to program run CPU processor B 301 respectively.

NO	Title	Describe
			1	?B_microblaze	Program run CPU
2	?B_DLMB	B_microblaze Data Cache bus
			3	?B_ILMB	B_microblaze instruction Cache bus
4	?B_dlmb_cntlr	The local data bus controller
			5	?B_ilmb_cntlr	Local instruction bus controller
6	?B_bram	The RAM memory device that FPGA is embedded
			7	?B_PLB	The treater local bus connects CPU with each equipment on the PLB
8	?B_IXCL	Cpu instruction Cache bus
			9	?B_DXCL	Cpu data Cache bus

NO	Title	Describe
			??10	??A_B_FSL	A_microblaze is to the quick one way link of B_microblaze
??11	??B_A_FSL	B_microblaze is to the quick one way link of A_microblaze

Table 3

Please refer to Fig. 4 and table 4, described multichannel memory controller 102 comprises: SDRAM memory device 402 on multi-interface memory controller 401 and the plate; This SDRAM memory device 402 is connected with multi-interface memory controller 401, and this multi-interface memory controller 401 is connected with NPI interface, treater local bus B_PLB, cpu instruction Cache bus B _ IXCL, cpu data Cache bus B _ DXCL, treater local bus A_PLB, cpu instruction Cache bus A_IXCL and cpu data Cache bus A_DXCL respectively.

??NO	Title	Describe
			??1	??MPMC	The multi-interface memory controller
??2	??DDR?SDRAM	SDRAM memory device on the plate
			??3	??NPI	The NPI interface of MPMC connects the VFBC controller
??4	??B_PLB	Treater local bus B
			??5	??B_IXCL	Cpu instruction Cache bus
??6	??B_DXCL	Cpu data Cache bus
			??7	??A_PLB	Treater local bus A
??8	??A_IXCL	Cpu instruction Cache bus
			??9	??A_DXCL	Cpu data Cache bus

Table 4

Please refer to Fig. 5 and table 5, described display control switch 104 is connected with video data bus VDB, frame of video cache controller bus VFBCB, clock signal clk 1 and frame count GPIO signal Frame Count respectively; Described display control switch 104 is determined current viewing area by frame count GPIO signal FrameCount.

NO	Title	Describe
			1	?DisplayController	Display control switch
2	?VDB	Video data bus, the video data of delivery numeral
			3	?VFBCB	Frame of video cache controller bus connects VFBC
4	?CLK1	The read clock signal
			5	?Frame?Count	Frame count GPIO signal, DisplayController determines current display space by this signal

Table 5

Please refer to Fig. 6 and table 6, described video storage space finder 105 is connected with frame count GPIO signal Frame Count with treater local bus A_PLB respectively.

NO	Title	Describe
			1	?VideoMe?nGPIO	The GPIO controller
2	?A_PLB	The treater local bus connects CPU
			3	?Frame?Count	Frame count GPIO signal, DisplayController determines current display space by this signal

Table 6

Please refer to Fig. 7, utilize the method for the whole-painting automobile instrument system realization whole-painting automobile instrument of present embodiment, may further comprise the steps: S1. draws and the corresponding display image data of this automobile parameter according to the automobile parameter of input; S2. read this display image data, and utilize mixing, superposition algorithm blended image data; S3. according to the real-time display image of blended image data.

Please refer to Fig. 8 to Figure 10 and table 7, described step S1 comprises following substep: S11. soft processor nuclear B waits for rotating speed, turns to data; S12. soft processor nuclear A obtains data, comprises rotating speed, water temperature, and oil mass turns to data; S13. soft processor nuclear A sends rotating speed to soft processor nuclear B, turns to data; S14. soft processor is examined A refresh rate, water temperature, oil mass image; S15. soft processor nuclear B refreshes rotating speed, turns to image; S16. soft processor nuclear A waits for that soft processor nuclear B finishes; S17. soft processor nuclear B sends to refresh and finishes data.

Numbering	The one-level module	The secondary module	Function
				??A1	??ModuleA	??MainA	The initialization 2 acquisition speed of 1 system, rotating speed, oil mass, water temperature turns to data, and refreshed image 3 and ModuleB communication send rotating speed, turn to data 4 to switch and show Buffer
??A2	??ModuleA	??DisplayControllerA	The demonstration of 1 control hardware is provided with 2 renewal speed, oil mass, water temperature image
				??A3	??ModuleA	??BasePaintA	1 basic point, line drawing is drawn
??B1	??ModuleB	??MainB	1 with the ModuleA communication, obtain rotating speed, turn to data 2 according to rotating speed, turn to data, refreshed image
				??B2	??ModuleB	??DisplayControllerB	1 upgrades rotating speed, turns to image
??B3	??ModuleB	??BasePaintB	1 basic point, line drawing is drawn

Table 7

Please refer to Figure 11, the described process of drawing is specific as follows: (1) DisplayControllerA and DisplayControllerB read background image; (2) DisplayControllerA and DisplayControllerB need the zone of renewal with the background image drawing; (3) DisplayControllerA and DisplayControllerB read foreground image; (4) mixed foreground image of DisplayControllerA and DisplayControllerB stack and background image.

Please refer to Figure 12, described step S2 comprises following substep: S21. soft processor nuclear A and soft processor nuclear B describe the display buffer; S22. video storage space finder switches the display buffer; S23. display control switch is controlled display data.

Please refer to Figure 13, described step S22 comprises following substep: S221. soft processor nuclear A revises the controlling valu of video storage space finder; S222. video storage space finder sends order to display control switch according to controlling valu by frame count GPIO signal.

Please refer to Figure 14, described step S3 comprises following substep: the S31. display control switch is by multichannel memory controller reading displayed buffer data; S32. display control switch produces liquid crystal control sequential; S33. display control switch transmits display data according to liquid crystal control sequential to liquid crystal display LCD.

Above content be in conjunction with concrete optimal technical scheme to further describing that the present invention did, can not assert that concrete enforcement of the present invention is confined to these explanations.For the general technical staff of the technical field of the invention, without departing from the inventive concept of the premise, can also make some simple deduction or replace, all should be considered as belonging to protection scope of the present invention.

Claims (14)

1. a whole-painting automobile instrument system is characterized in that, described whole-painting automobile instrument system comprises: be used for drawing and the soft processor of the corresponding display image data of this automobile parameter nuclear A (101) according to the automobile parameter of input; Be used for multi-channel and use the multichannel memory controller of handling (102); The frame of video cache controller (103) that is used for the display buffer switching controls; Be used to read this display image data, utilize mixing, superposition algorithm blended image data, and select the video storage space finder (105) in video storage space; And be used for display control switch (104) according to the real-time display image of blended image data; Described soft processor nuclear A (101), multichannel memory controller (102), frame of video cache controller (103), display control switch (104) and video storage space finder (105) connect successively.

2. whole-painting automobile instrument system according to claim 1, it is characterized in that described whole-painting automobile instrument system further comprises: some being used for draws and the soft processor of the corresponding display image data of this automobile parameter nuclear B (106) according to the automobile parameter of input; Described some soft processor nuclear B (106) are connected with program run CPU processor A (101) and multichannel memory controller (102) respectively.

3. whole-painting automobile instrument system according to claim 1 and 2 is characterized in that, described whole-painting automobile instrument system further comprises: the LCD (109) that is used for display image data; Be used for the parallel image data are converted to the modular converter (108) of the receivable Low Voltage Differential Signal of LCD (109); And being used for the clock supplying module (107) of display control switch (104) and modular converter (108), this clock supplying module (107) sends 7 times to the clock of display control switch (104) to modular converter (108); Described display control switch (104), modular converter (108) and LCD (109) connect successively, and described clock supplying module (107) is connected with modular converter (108) with display control switch (104) respectively.

4. whole-painting automobile instrument system according to claim 3, it is characterized in that described soft processor nuclear A comprises: the RAM memory device A (204) that program run CPU processor A (201), local data bus controller A (202), local instruction bus controller A (203) and FPGA are embedded; Described RAM memory device A (204) is connected with local instruction bus controller A (203) with local data bus controller A (202) respectively; Described local data bus controller A (202) is connected with program run CPU processor A (201) with instruction Cache bus A_ILMB by Data Cache bus A_DLMB respectively with local instruction bus controller A (203); Described program run CPU processor A (201) is connected with treater local bus A_PLB, cpu instruction Cache bus A_IXCL, cpu data Cache bus A_DXCL, program run CPU processor A (201) the quick one way link B_A_FSL to the quick one way link A_B_FSL of program run CPU processor B (301) and program run CPU processor B (301) to program run CPU processor A (201) respectively.

5. whole-painting automobile instrument system according to claim 3, it is characterized in that described soft processor nuclear B comprises: the RAM memory device B (304) that program run CPU processor B (301), local data bus controller B (302), local instruction bus controller B (303) and FPGA are embedded; Described RAM memory device B (304) is connected with local instruction bus controller B (303) with local data bus controller B (302) respectively; Described local data bus controller B (302) is connected with program run CPU processor B (301) with instruction Cache bus B _ ILMB by Data Cache bus B _ DLMB respectively with local instruction bus controller B (303); Described program run CPU processor B (301) is connected with treater local bus B_PLB, cpu instruction Cache bus B _ IXCL, cpu data Cache bus B _ DXCL, program run CPU processor B (301) the quick one way link A_B_FSL to the quick one way link B_A_FSL of program run CPU processor A (201) and program run CPU processor A (201) to program run CPU processor B (301) respectively.

6. whole-painting automobile instrument system according to claim 3 is characterized in that, described multichannel memory controller (102) comprising: SDRAM memory device (402) on multi-interface memory controller (401) and the plate; This SDRAM memory device (402) is connected with multi-interface memory controller (401), and this multi-interface memory controller (401) is connected with NPI interface, treater local bus B_PLB, cpu instruction Cache bus B _ IXCL, cpu data Cache bus B _ DXCL, treater local bus A_PLB, cpu instruction Cache bus A_IXCL and cpu data Cache bus A_DXCL respectively.

7. whole-painting automobile instrument system according to claim 3, it is characterized in that described display control switch (104) is connected with video data bus VDB, frame of video cache controller bus VFBCB, clock signal clk 1 and frame count GPIO signal Frame Count respectively; Described display control switch (104) is determined current viewing area by frame count GPIO signal Frame Count.

8. whole-painting automobile instrument system according to claim 3 is characterized in that, described video storage space finder (105) is connected with frame count GPIO signal Frame Count with treater local bus A_PLB respectively.

9. whole-painting automobile instrument implementation method may further comprise the steps:

S1. draw and the corresponding display image data of this automobile parameter according to the automobile parameter of input;

S2. read this display image data, and utilize mixing, superposition algorithm blended image data;

S3. according to the real-time display image of blended image data.

10. whole-painting automobile instrument implementation method according to claim 9 is characterized in that, described step S1 comprises following substep:

S11. soft processor nuclear B waits for rotating speed, turns to data;

S12. soft processor nuclear A obtains data, comprises rotating speed, water temperature, and oil mass turns to data;

S13. soft processor nuclear A sends rotating speed to soft processor nuclear B, turns to data;

S14. soft processor is examined A refresh rate, water temperature, oil mass image;

S15. soft processor nuclear B refreshes rotating speed, turns to image;

S16. soft processor nuclear A waits for that soft processor nuclear B finishes;

S17. soft processor nuclear B sends to refresh and finishes data.

11., it is characterized in that the described process of drawing is specific as follows according to claim 9 or 10 described whole-painting automobile instrument implementation methods:

(1) soft processor nuclear A and soft processor nuclear B read background image;

(2) soft processor nuclear A and soft processor nuclear B need the zone of renewal with the background image drawing;

(3) soft processor nuclear A and soft processor nuclear B read foreground image;

(4) soft processor nuclear A and mixed foreground image of soft processor nuclear B stack and background image.

12., it is characterized in that described step S2 comprises following substep according to claim 9 or 10 described whole-painting automobile instrument implementation methods:

S21. soft processor nuclear A and soft processor nuclear B describe the display buffer;

S22. video storage space finder switches the display buffer;

S23. display control switch is controlled display data.

13. whole-painting automobile instrument implementation method according to claim 12 is characterized in that, described step S22 comprises following substep:

S221. soft processor nuclear A revises the controlling valu of video storage space finder;

S222. video storage space finder sends order to display control switch according to controlling valu by frame count GPIO signal.

14., it is characterized in that described step S3 comprises following substep according to claim 9 or 10 described whole-painting automobile instrument implementation methods:

S31. display control switch is by multichannel memory controller reading displayed buffer data;

S32. display control switch produces liquid crystal control sequential;

S33. display control switch transmits display data according to liquid crystal control sequential to liquid crystal display LCD.

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