TW201131470A - Graphics display systems and methods - Google Patents

Abstract

A graphics display system having a graphics processing module and a display module is disclosed. The graphics processing module determines whether a second frame data subsequent to the first frame data is equivalent to the first frame data. The graphics processing module further outputs a mode switching command and the second frame data in response to that the second frame data is equivalent to the first frame data, and stops outputting frame data. The display module outputs a display image according to the first frame data. When receiveing the mode switching command, the display module stores the second frame data in a storage module in response to the mode switching command, and keeps outputting display images according to the second frame data retrieved from the storage module.

Description

201131470 VI. Description of the Invention: [Technical Field] The present invention relates to image display and control technology, and in particular to an image display system and method capable of dynamically adjusting an operation mode of image display to achieve a system saving The purpose of resources and power consumption. [Previous technology; title] Whether it is an electronic computing device such as a personal desktop computer, a notebook computer, or a workstation server, an external or built-in display is required as the most basic human-machine communication interface, or used to provide multimedia. Related applications. Generally, an electronic computing device processes image data through a display interface card (Video card, Graphics card, Video adapter), and drives the display to display the surface to complete the communication between human and computer. Figure 1 is a diagram showing the display architecture of a conventional electronic computing device. The electronic computing device 100 includes a central control unit 110 and a display interface card 120, and the display interface card 120 is connected to the display 13 through a Low-Voltage Differential Signaling (LVDS) interface, the low voltage differential The interface of the signal architecture includes a data bus 1 and a display data channel (DDC) bus 20, wherein the data bus ί is used to transmit frame data, and the data channel bus 20 is displayed. For the display interface card ι2 〇 to obtain the specifications and settings of the display 130 and further adjust the display @ 13 〇 parameters (such as brightness and color balance) or initial demagnetization, etc., to output appropriate signals to play the most uo display Good display performance. Display data channel bus 2〇VIT10-0006100- rM//0608-A42368TW-f 201131470 (Serial DAta Line * SDA) ^ Material transmission line 21H (4)(10), SCL) 22, serial resource name, internal data of sequence tm, such as Wei Card machine, data transmission ===-

Often easy: the current user is operating the electronic computing device 'its mode of use force ==::=): state, when the user pays attention to it, although the user, the user temporarily leaves the seat, etc., still need to The picture that needs to be displayed for one or two pounds has not changed. 'But the display interface card 120 is pulled. The picture data is continuously output to the display 130. Since the input side=1, / the electronic computing device 1GG continues to occupy the system source for display 2 The operation of the card 0, as well as the data transfer between the data bus 10 and the display data channel "bank 20, consumes unnecessary power energy. SUMMARY OF THE INVENTION An embodiment of the present invention provides an image display system including an image processing module and a display module. The image processing module detects whether the second picture data is the same as the first picture data, and if the second picture data is the same as the first picture data, the output image is After the mode conversion instruction and the second drawing data described above, the output of the face data is stopped. The display module outputs a display surface according to the first facial data, and when receiving the mode switching instruction, storing the second facial data as a temporary storage data, and continuously outputting the display surface according to the temporary storage data. . Another embodiment of the present invention provides an image display system including

VlTl〇O〇06IO〇- ri4//0608-A42368TW-f 5 201131470 An image processing module, and the continuous detection of the image processing module in the time interval, whether the image data is on the screen, '第昼The second data of the poor material is the same as the second surface=face data. If the second surface-mode conversion command is the same as the above-mentioned white image, the image processing module outputs the material; After the data is stopped, the above-mentioned display module is stopped according to the above-mentioned mussels. When receiving the above-mentioned mode conversion finger = the output of the display, the one of the two sides of the data is stored in the above-mentioned display module. The first material continues to output the display surface as the temporary storage data, and according to the other embodiment of the above-mentioned temporary capital invention, the following process steps are provided: by - display image ^ not method 'including two m description - picture material - Second screen data. On the same page, the first surface information is the same as that of the first (4) factory 2 once the surface of the shell and the upper equipment; stop outputting the surface data to the above display 7^ written. According to another embodiment of the above-mentioned temporary storage data, which is continuously outputted in the form of a spoon, an image display method is provided, which is applicable to the image display system of the module and the image processing module. The method includes the following process steps: the display module outputs a book map according to the first screen data of the image processing module, and the processing module continues to perform the debt measurement in a time interval. Whether the second screen data is the same as the above-mentioned first-side data; the second data in the above-mentioned second surface is the same as the above-mentioned first surface information VIT10-0006100-7T47〇6〇8-A42368TW-f 201131470=module=ί The module stops outputting the face data; when the connection = : ί 'from the above display module, the second one is stored as the temporary storage data; and the display screen is continuously outputted according to the temporary storage data. The features and advantages of the model, the spirit and scope of the skilled artisan in this field, can be made in accordance with the present disclosure system and method 'to make some changes to the other attachments of the present invention, without departing from the present The invention discloses an image and a retouched image disclosed in the method.

[Embodiment] This section describes the spirit of the present invention in order to best explain the present invention, and is not intended to be used in the context of the present invention. Fig. 2 is a diagram showing an image display system according to the present invention - a horse + #± embodiment. No, the components marked with the same number are the corresponding components in the figure _, ^ ^ 仵 弟 ^ ^, face μ a door In addition, different numbers are used to indicate different components. The image display system 包括 u u u 包括 包括 包括 包括 包括 包括 包括 包括 包括 包括 包括 包括 包括 包括 包括 包括 220 220 220 220 220 220 220 220 220 220 220 220 220 220 220 220 220 220 220 220 220 220 220 220 220 220 220 220 220 220 The display panel module 231, the timing control (Timing contr〇ller, tc〇n) module 232, and the storage module 233 are included. The timing control module 232 synchronously processes the timing signals required by the display panel module 231, and outputs a control number to directly drive the display panel module 231. The interface of the low-voltage differential signal structure includes a data bus 10 and a display data channel bus 2 ’ ’, where the data bus 10 is used to transmit the data, display data

VtT1 〇~〇〇〇6j〇〇~7"l4^0608-A42368TW-f 201131470 The channel bus 20 is used by the image processing module 220 to obtain the specifications and settings of the display module 230 and further adjust the display module 230. The parameters (such as brightness and color balance) or initial demagnetization operations, etc., to output appropriate signals to achieve the best display performance of the display module 230. The display data channel bus 20 can further include a sequence data transmission line 21 and a sequence clock transmission line 22, and the sequence data transmission line 21 is used to transmit the internal data of the display module 230, such as the name, serial number, resolution, etc. of the brand model. The sequence clock transmission line 22 is used to provide a synchronization clock when the sequence data transmission line transmits data. Different from the conventional display architecture, in the embodiment shown in FIG. 2, after the image processing module 220 outputs the first page data to the display module 230, it will detect whether the next page data needs to be needed. The update means that the second page data connected to the first page data is the same as the first page data. If they are the same, it means that the user's current usage mode is idle, meaning the first page. The content of the data is the same as the second screen data. Therefore, the image processing module 220 transmits a mode conversion command to the sequence control module 232 in the display module 230 through the sequence data transmission line 21 to notify the display module 230 to enter power saving. mode. In another embodiment, the image processing module 220 can continuously detect the plurality of pages connected to the first page data within a predetermined time interval after outputting the first page data to the display module 230. Whether the two side data are the same as the first side data, if the plurality of second side data are the same as the first side data, the mode conversion command is transmitted to the display module 230 through the sequence data transmission line 21. The control module 232 notifies the display module 230 to enter the power saving mode, so that the power saving mode can be avoided from being switched too frequently. V/T10-0006100- ri^/0608-A42368TW-f 201131470 Next, the image processing module 2 transmits the search stream 1G to the display material transmission display device 23. The program Λ · ' Then stop the round-up data to the system can stop part of the power supply to H. In the embodiment, the image display system module 220 is idle - like the processing group 22G, so that the image is - pre- , the second state of the people. The above mode conversion instruction may be a read or write instruction, and a bite/secondary address (-----) is used for reading. 4 new & special instructions for the above-mentioned mode transfer production 23G (four) sequence control module 232 when receiving the mode conversion command from the image processing 22G, then enter the power saving ^ self-image =: ΠΓ to the The two-dimensional data is stored in the storage: the second is a temporary storage (four), and the display panel module 231 continues to output the display screen according to the temporary storage data in the = 233 = receiving and reading the dry data. Since the above storage = θ is required to store the information of the facet - therefore, the storage capacity is large ':, depending on the display panel module 231 _ the degree of resolution, and the storage module can be any storage medium, For example: read-only memory, flash memory, and non-volatile memory (Non Volatile Memory, NVM), or Ik stack access 5 memory, cache memory and other volatile memory ( In addition, when the display module 230 enters the power saving mode, the timing control module 232 continuously transmits the current vertical blank information of the display panel module 231 through the sequence clock transmission line 22 to Image processing module 220. It is worth noting that the figure is in idle or dormant state. VIT10-0006100- rM^0608-A42368TW-f 201131470 = Although group 220 stops outputting face data, it still holds ~ t continued! Raw face data, therefore, when the third part of the image processing model is to be updated, that is, when the debt measurement of the second face data is different from the second face data, the figure If the processing mode does not determine the sleep state 'and the third 昼 = group-synchronization time according to the vertical occlusion time, then the synchronization control module 232 = the display module 23G in the power saving mode, When it is passed in, therefore, at that time = continue to monitor whether there is data from the data bus 10〗. Received; three books 232 detected through the data bus mode, by the timing control module 2324 / dry ^ display: group coffee to leave the power saving three-picture data round out display to check "the staff does not panel module, such as according to the first In other words,:: When using the storage module to temporarily use the storage module I to leave the power saving mode, the second module - the second image processing mode: the vertical blanking information is determined And the display module 2 is received at the synchronization time to change the sequence data transmission line = = time, and then the data sinking power transmission tv surface group 230 displays the mode power transmission line 21 when the detection of the sequence data transmission line 21 == The mode is changed to use the temporary storage data in the storage module 233 according to the third face VIT10-0006100-TH//0608-A42368TW-f 201131470. FIG. 3 is an image according to another embodiment of the present invention. Display system. As shown in the figure, elements denoted by the same reference numerals denote the same elements as those in the first figure, and different numbers are used to indicate different elements. Image display system 300 includes central control unit 110 and image processing mode 320, and the image processing module 320 is connected to the display module 330 through an interface of an embedded display interface (eDP). The display module 330 includes a display panel module 33, a timing control module 332, The storage module 333 and the backlight module 334. The timing control module 332 synchronously processes the timing signals required by the display panel module 331 and outputs control signals to directly drive the display panel module 331 and the backlight module 334. The interface of the embedded display architecture includes a main connection 31, an auxiliary channel line 32, and a Hot Plug Detect (HPD) line 33, wherein the main connection 31 is used for transmission. The auxiliary channel line 32 is used to manage and control the specification and setting of the display module 230. The hot plug detection line 33 is used to detect the source device and the connection event and the transmission of the receiving device in the power-on state. In this embodiment, the image processing module 320 notifies the display module 330 to enter the power saving mode through the auxiliary channel line 32. Further, the image processing module 320 is in the transmission mode. After the first page of data is sent to the display module 330, it is detected whether the next piece of data needs to be updated, that is, whether the second picture data connected to the first picture data is the same as the first picture data. If they are the same, it means that the user's current usage mode is idle. Therefore, the VIT10-0006100-n4//0608-A42368TW-f 11 201131470 image processing module 320 transmits a mode conversion command to the display through the auxiliary channel line 32. The timing control module 332 in the module 330 notifies the display module 330 to enter the power saving mode. In another embodiment, the image processing module 320 can continuously detect the sequel to the first slab data in the /preset time interval after outputting the first page data to the display module 330. Whether the second picture data is the same as the first picture data. If the plurality of second picture data are the same as the first picture data, the mode conversion instruction is transmitted to the timing control mode in the display module 330 through the auxiliary channel line. The group 332 is configured to notify the display module 330 to enter the power saving mode, so as to avoid switching the power saving mode too frequently. %, the image processing module 320 then transmits the second page data to the display module 330 through the main connection 31, and then stops the process of outputting the face data to the display device 330. At this time, in an embodiment, the image display system 3 停止 can stop the partial power supply to the image processing module 32 〇 to cause the image processing module 320 to enter an idle or sleep state. The above mode conversion instruction may be a preset instruction, such as a read or write instruction designating a slave address, or a newly defined special instruction dedicated to the above mode conversion. When receiving the mode switching instruction from the image processing module DO, the timing control module 332 in the display module 330 enters the power saving, and the second page data stored in the figure from the main connection 31 is stored in the left side. The medium is used as a temporary storage data, and the temporary storage data in the display module 333 is controlled to continue to output the display surface, and 31 receives and reads the image data according to the storage connection 31. Since the above storage needs to be used to store a piece of data from the main source, the storage capacity level 333 only needs to be sized to be V/T Ο 0006 0006 0006 0006 0006 0006 0006 0006 0006 0006 0006 0006 0006 0006 0006 0006 0006 236 236 236 236 236 236 236 236 236 236 236 236 236 12 12 12 12 12 12 12 12 The display panel module 33, the storage medium, for example, the degrading storage module 333 can be any non-volatile memory, flash memory, and hard disk memory or random access memory. , cache memory and other groups of 3 ^ holding it group 330 into the power-saving mode after the 'sequence control mode over the smuggling and smuggling,., the shoulder is not panel module 231 the current vertical cover information through two:, 贞 line 33 Transfer to image processing module 320. It is worth noting that the image processing module 32G in the dormant state or the dormant state will continue to detect the subsequent facet data, even if the image is stopped. Therefore, the field is detected, and 320 is detected. The data needs to be updated. After the second screen data, the third and second states are selected, and according to the connected 3f, one of the idle or closed eyes will be synchronized. _, the vertical U signal determines and displays the module 330, 曰, one After the synchronization time, the first written main connection 31 is transmitted to the display mode: - the surface material is transmitted through the main display module (4), and the timing control has data from the main connection 3^, _, ^ 2 still continues Monitor whether the second control received by the main connection 3! is controlled by the control module 3 3 2, and the measurement 330 leaves the power saving mode. When the time is poor, the display module (4) is based on the third screen. The data indicates the temporary storage data in the display panel module 333. Instead of using the storage module, the fourth figure is a flow chart according to the present invention. In this embodiment, the present method is used to control the output of the image data to a display. Jin', Dingfa is used to save system resources, and viTio-oooeioo-Tvmm -AAim Vm 13 201131470 The display device rotates the display according to the temporary data in the power saving mode* (St; (4) The display shows the book according to a first face data: ==:? Group 33. 'And _ surface data The image processing module 22 or the third image of the image can be detected. After the first screen data is rotated, it is detected whether the fourth image is the same as the first image data (step 叱〇, the surface data is not updated). Therefore, when the first side of the second data tray is the same, the second device data is stored by the display device: and an image processing module stops outputting the data to the display (step _) Finally, the indication display device is based on the temporary two: the two-wheeled display (step s-tip), meaning that the display device and the image display system including the s^'' and the non-device have entered the power-saving mode. = Figure according to another embodiment of the present invention = apparent in the embodiment: 'Image display method of the present invention _ Image display system such as image processing module, image display system in Example ® 200 or 3rd image of the image display, · 300 ° The image display method is executed by ' == from the image The module - the first: two St 2 ^ 0 or the map display module can be the display module in Figure 2 Figure 2 3 = 5: the image processing module can be the 2nd 32. Wheel 2后 After the first image data of the image processing module in the figure, the image processing module is carefully measured and connected in a time interval VIT1〇-〇〇〇6io〇-Tw/m%.A42m-mf 14 201131470 The data in the first page is the same as the data in the first page (step 酹 弟 一直 ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ The same is true. Therefore, when the written information of the second page is the same, it is transmitted by the image processing module. The mode conversion refers to the second page data to the display module, and the image processing module stops the data (step measurement). . Where 'if the image processing module and the display module communicate

The data transmission line is regulated by the low voltage differential signal architecture as shown in FIG. 2, and the mode switching instruction may be carried on the sequence data transmission line, and the vertical blanking information may be carried on the sequence clock transmission line; If the communication between the image processing module and the display module is through a data transmission line as specified by the embedded display architecture shown in FIG. 3, the mode switching instruction may be carried on the auxiliary channel line, and the above Vertical obscuration information can be carried on the hot plug detection line. Finally, when the display module receives the mode switching instruction, the second module data is stored by the display module as the temporary storage data (step S540)', and the display mode is continuously outputted by the display mode peak data. (Step S550), at this time, the entire image display system has completed the process of entering the power saving mode. In the power-saving mode, the image processing module enters the idle state and no longer outputs the data. This saves system resources. At the same time, the display module switches the source of the data to the proper storage. Temporary storage of poor materials, so it will not cause problems with the output of innocent data. After the image display system enters the power saving mode, the image of the present invention displays VITl〇.〇〇〇6/〇〇.rH//0608-A42368TW-f 15 201131470 How to handle the process of leaving the power saving mode, to the image Handling the shuttlecock Vertically obscuring the information transmission coarsely and continuously detecting the second side of the data after the inspection and the next factory to update. That is to say, the image processing structure is detected by the third image group of the third image after the image _ | 贝 昼 ; 同步 同步 同步 同步 ; ; ; ; ; ; ; ; ; ; ; 同步 同步 同步 同步 同步 同步 同步 同步The electric model/page is not the second book, and the screen is displayed from the "shoulder not module to the root display (four). Or 'if the image processing module and the display «3 pass through as the second The low voltage difference (four) shown in the figure is called the kf material transmission line, then the invention = step; first change the low sway signal structure == == potential 'to inform the display group to leave the power saving mode, and then 1Send the second A-side data to the display module, so that the display seam is changed according to the third image data display method according to the third image data display method, and the software display method can be used by using software, firmware, and hard. Any combination of the body can be realized, and the hardware can be any device having an image display function, for example, a personal computer, a server, a notebook computer, a personal digital assistant (PDA), a soft storage system, _ Saved in other machines except ^ remove / volatile / non-volatile electricity Removed/cannot _ or can be accessed by the above hardware, sub, "' can be included in the above hardware column such as magnet medium, optical medium, V/T10-0006100- ri^/0608-A42368TW-f 201131470 Flash memory card, digital tape, solid state random access memory, solid state read only memory, etc. The present invention has been disclosed above in various embodiments, but is merely exemplary and not intended to limit the present invention. The scope of the present invention can be modified and retouched without departing from the spirit and scope of the present invention. For example, the central control unit 110 can be integrated with the image processing module 220 or the display module 230. The image display module 230 can be integrated with the image processing module 220 in a single device or each of the separate electronic devices. Similarly, the display module 330 can be integrated with the image processing module 320. The present invention is not intended to limit the scope of the present invention, and the scope of the present invention is defined by the scope of the appended claims. 1 is an architectural diagram showing a conventional image display system. Fig. 2 is an image display system according to an embodiment of the present invention. Fig. 3 is an image display according to another embodiment of the present invention. Figure 4 is a flow chart of an image display method according to an embodiment of the present invention. Fig. 5 is a flow chart of an image display method according to another embodiment of the present invention. 】 10~ data bus; VIT10-0006100-rH//0608-A42368TW-f 17 201131470 20~ Display data channel bus; 21~ sequence data transmission line, 22~ sequence clock transmission line; 31~ main connection; 32~ Auxiliary channel line; 33~ hot plug detection line; 100, 200, 300~ image display system; 110~ central processing unit; 120~ display interface card; 130~ display; 220, 320~ image processing module; 230, 330~ display module; 231, 331~ display panel module; 232, 332~ timing control module; 233, 333~ storage module; 3 3 4~ backlight module. ΐΤΐΤ1Ο-ΟΟΟ6ΙΟΟ-Τ\Α//060%-ΑΛ2Ί,6ΖΊ^Ν-ϊ

Claims (1)

201131470 VII. Scope of application for patents: 1 · An image display system, comprising: an image processing module, detecting whether one of the above-mentioned data of the first and second faces is connected to the first and second sides of the data The image of the returning brother is the same as the poor material. If the material is the same as the above-mentioned first-side data, the output data is stopped after the output-module and the second surface data; According to the above first surface data output, when receiving the above mode conversion instruction, :", Dan, as -= data, and according to the above (four) deposit (four) continuous input 2! Please refer to the figure described in the first item of the patent scope Like the display (10), where the former one is vertically covered with mm ^ 吏, the more performance will be entered and the Λ / Λ Λ Λ 至 to the above image processing module. Top: Two! Please refer to the image display system described in item 2 of the patent scope, wherein the tenth f3 module is more than after detecting the second picture material - when the picture data is different, according to the above-mentioned π π 疋 疋 上 上The display module synchronizes the time to transmit the third screen data to the display module, so that the upper and lower modules output the display surface according to the third screen data. Bu, ftr, please refer to the image display system described in item 2 of the patent scope, in which the pass, the emirate, and the conversion command are carried to one of the embedded display 辅助 architectures I" 'the above vertical occlusion information system The image display system described in item 2 of the above-mentioned embedded display display. The image display system described in the second item of the patent (4), wherein the d-wu conversion command is carried on the low electric dust difference One of the motion signal architectures, V/Tl〇-〇〇〇6/〇〇-TWm〇Z-A4236n^/-f 19 201131470 The data transmission line, on. ^力.桃a至罝遮/又贝矾The image transmission system described in item 5 of the patent range of the above-mentioned low-voltage differential eucalyptus structure is provided, wherein the image processing system described in the fifth paragraph of the patent scope is further detected. When the second screen data is different from the second screen data, the synchronization time is synchronized with one of the display modules according to the above description, and the first: gold 1 = change the sequence a potential of the data transmission line and transmitting the material to the display module, so that the display module detects When the change is made, the display screen is displayed according to the third screen data. 7· The image display system described in the scope of the patent application, wherein the -ίίΓ module includes a timing control module, a display panel module, and a master In the fourth group, when the timing control module receives the mode switching finger, the notification module is notified to enter a power saving mode, and the timing control module continues after the module enters the power saving mode. The vertical display information of the upper display panel module is transmitted to the image processing handle group, wherein the display module stores the second data in the storage module as the temporary storage data. The image display system of claim 7, wherein the timing control module of the display module in the power saving mode is ==, ································································· If yes, the above-mentioned display group leaves the power saving mode, and does not use the temporary storage data in the storage module, wherein the third surface data is in the second surface After the material is not the same as the above second surface data. 9. An image display system, comprising: ^IT1〇^〇〇qqiqq_ 〇6〇8-A42368TW-f 201131470 :: like processing module, in a time interval Whether the second or the second information in the first-to-the-half graciousness is "connected," is only the same, if the second information is the same as the first::: picture, then the output is converted. The command and the upper surface of the poor material are outputted to the surface data; and the first inner data is stopped, and a display module is stopped. According to the first mode, when the mode conversion instruction is used, the temporary storage (4) is stored, according to the above The temporary data is continuously outputted, and the image display m in the image display item 9 of the patent application scope is continuously transmitted to the above figure after receiving the above mode conversion instruction. Like processing molds. The image display system described in the first paragraph of the above-mentioned patent scope, wherein the first group is more than the second surface data after detecting the second surface information. And determining, according to the above information, synchronizing with one of the display modules, and transmitting the third kneading data to the display module, so that the I-not module outputs the display surface according to the third kneading data The image display system described in Item 1G of the above-mentioned patent application scope, the auxiliary instruction system is carried in an embedded display itch structure, and the vertical cover information is carried on the above. The embedded display of the eucalyptus structure is a hot-swappable detection line. 13. The image display system according to the first aspect of the patent application, wherein the mode switching instruction is carried by the low voltage differential signal structure. A νπ~10-0006100- rny0608-A42368TW-f 21 201131470 sequence data transmission line, the vertical obscuration information is carried to a sequence clock transmission line of one of the low voltage differential signal structures. 14. If the patent application scope is 13th The image display system The image processing module is further configured to determine the display module according to the vertical blanking information when the third image data after the second image data is detected is different from the second image data. a synchronization time, and changing a potential of the sequence data transmission line and transmitting the third data to the display module at the synchronization time, so that the display module detects the change of the potential according to the third screen The image display system of the invention of claim 9, wherein the display module comprises a timing control module and a display panel module, a storage module, when the timing control is When receiving the mode switching instruction, the module notifies the display module to enter a power saving mode, wherein when the display module enters the power saving mode, the timing control module continues to display the display panel module The vertical masking information is transmitted to the image processing module, wherein the display module stores the second side data in the above The image storage system of claim 15, wherein the timing control module of the display module in the power saving mode continues to monitor whether the timing control module is continuously monitored. a third screen data is transmitted, if any, the display module leaves the power saving mode, and does not use the temporary storage data in the storage module, wherein the third surface data is in the second surface After the data is not the same as the above second information. Factory H//0608-A42368TW-f 22 201131470 17·---------------------------------------------------------------------------- In the first picture of the first picture, the second picture:;:: is the same as the above-mentioned first-side data; - whether the face-to-face data is in the above-mentioned second picture data and the first picture data is the same as above: The second screen data is used as - temporary storage: : material. Knows the output of the surface data to the above display device; and / , surface. And causing the display device to continue to display the display according to the temporary storage data. 18. The image according to claim 17 of the patent application area is the second surface data and the first surface data. - vertical obscuration of information, and one of the third 昼 information after the second 昼 资料 与 与 与 ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' 根据 根据 根据 根据 根据 根据 根据The synchronization time 'and the third inner-bean material are transferred to the display device at the synchronization time to cause the display device to display the display surface according to the upper surface data. 19. The method of displaying an image according to claim 17 is further included when the second picture material is identical to the first picture data, and continues to pass through a sequence of a low voltage differential signal structure. The pulse transmission line receives one of the current vertical obscuration information from the display device and, after detecting the second kneading data, the third kneading data is different from the second kneading data, according to the vertical obscuration The information determines the synchronization time with the display device, and changes the potential of one of the sequence data transmission lines of the low voltage differential signal VITIO^OOoqiqq ri4/0608-A42368TW-f 23 201131470 at the synchronization time and transmits the third The faceted data is sent to the display device, so that the display device displays the face according to the third screen data when detecting the change of the potential. 20. An image display method, comprising: an image display system comprising a display module and an image processing module, comprising: receiving, by the display module, one of the first image processing modules The image processing module is configured to continuously detect whether the plurality of second side data of the first surface data is the same as the first surface data in a time interval, When the second page data is the same as the first page data, the image processing module transmits a mode conversion command and the second face data to the display module and stops the image processing module. Outputting the face data; when receiving the mode conversion command, the display module stores one of the second face data as a temporary storage data; and causes the display module to continuously output the display according to the temporary storage data昼· Face. 21. The image display method of claim 20, further comprising: when receiving the mode switching instruction, continuously transmitting, by the display module, one of the current vertical blanking information to the image processing module . 22. The image display method of claim 21, further comprising: detecting, by the image processing module, the third facial data and the second facial data after the second facial data When the difference is different, the above-mentioned picture VIT10-0006l00-TW/Q6QlA^n6?rr^f 24 201131470 is determined according to the vertical blanking information and the display module, the same V time, and processed by the above image The module transmits the third facial data to the display module at the synchronization time, so that the display module outputs the display surface according to the third facial data. 23. The image display method according to claim 21, wherein the mode switching instruction is carried on a secondary line of one of the embedded display structures, and the vertical blanking information is carried on the above The inlaid display shows the structure of the beech wood - the hot plug detection line. 24. The image display method according to claim 21, wherein the mode switching instruction is carried on the low-power differential signal ^ sequence data transmission line, and the above-mentioned vertical inverse is not careful * Am greedy 5 hole system A sequence of clock transmission lines that arrive at a low voltage differential. (2) The method for displaying an image as described in claim 24, wherein the image processing module detects that the second side of the second side of the data is different from the second side of the image. The processing module repeats the image processing module according to the above-mentioned vertical mask; the synchronization time of one of the groups, and the image processing mode, and the ί = Γ time changes the low voltage differential The signal structure-sequence potential and the third surface data are transmitted to: The first group displays the surface of the surface according to the output of the above-mentioned potential when the above-mentioned potential is detected. 1//7^彻狮-r_608_A42368TWf 25