TWI766239B - Computer system and information processing method dynamically adapting to multiple brands and display resolutions - Google Patents

Abstract

The present invention relates to a computer system dynamically adapting to multiple brands and display resolutions and an information processing method thereof, comprising a system firmware and a display module, wherein the system firmware stores more than one set of first label information and its information processing method. Resolution information, wherein the system firmware obtains a set of second brand information and its resolution information from the display module, and compares it with the stored first brand information and its resolution information, if it does not match, Then the system firmware processes the second brand information and its resolution information according to an image processing algorithm, and displays a support prompt information through the display module; thereby, it can dynamically adapt to different brand information And its resolution information does not need to be sent back to the original factory for processing, nor does it need to build a large amount of data, so as to improve the efficiency of information processing, storage space utilization and convenience.

Description

A computer system that dynamically adapts to multiple brands and display resolutions and its information processing method

The present invention relates to a computer system and an information processing method, in particular to a computer system and an information processing method for dynamically adapting to multiple brands and display resolutions.

With the rapid development of technology, computer devices are rapidly popularized, and a large amount of information or paperwork can be quickly processed through the computer device, thereby improving the work mode and improving the work efficiency.

A basic input/output system (BIOS, hereinafter referred to as BIOS) is pre-integrated in the current computer device, and various hardwares in the computer device are initialized and tested through the BIOS, so as to detect the devices installed in the computer device. Information about the status, model, specifications or parameters of the hardware or connected external electronic devices, and when the expansion program (Option ROM) corresponding to all hardware or external electronic devices is loaded into the computer device, the BIOS will be removed from the computer device. An operating system (Operating System) installed in the hard disk is loaded by the startup program for the user to start using the personal computer. Since the BIOS is responsible for initializing and detecting hardware or external electronic devices, the BIOS is also called system firmware.

In use, the computer device will be equipped with a display device to present relevant information such as data and images to the user through the display device. Therefore, the display device has become an important equipment of the computer device, and has attracted many manufacturers to join the development, This display device is produced. When the manufacturer produces the display device After setting, a brand information and its resolution information are preset in the display device, and provided to the manufacturer of the computer device and stored in the system firmware.

When the computer device is powered on, the system firmware will obtain its default brand information and its resolution information from the corresponding display device, and compare it with the stored brand information and its resolution information. The system firmware causes the computer device to display. On the contrary, if it does not match, the system firmware cannot make the computer device display, resulting in abnormal display of the computer device.

Therefore, in order to solve the above-mentioned abnormal display, the user can only send the computer device and the display device back to the manufacturer to add the brand information and resolution information of the corresponding display device, which is very inconvenient in use; , storing a large amount of brand information and its resolution information in the system firmware will also take up storage space, and due to the huge amount of data stored, the matching time will be prolonged, resulting in inconvenience.

In view of the above-mentioned problems of the prior art, the main purpose of the present invention is to provide a computer system and an information processing method for dynamically adapting to multiple brands and display resolutions, so that regardless of whether the obtained brand information and its resolution information are Whether it is stored in the system firmware, it can be processed in real time and dynamically adapted to the display resolution to improve the efficiency of information processing, storage space utilization and convenience.

One of the main technical means adopted to achieve the above-mentioned purpose is to make the above-mentioned information processing method for a computer system dynamically adapting to multiple brands and display resolutions to store more than one set of first label information and its resolution information, and the The method includes the following steps: obtaining a second label information and its resolution information; comparing whether the stored first label information and its resolution information and the obtained second label information and its resolution information match; If not, process the second label information and its resolution information according to an image processing algorithm, and display a support prompt message.

According to the above method, when the obtained second label information and its resolution information do not match the stored first label information and its resolution information, the image processing algorithm is used to determine the second label information. The information and its resolution information are processed to achieve dynamic adaptation of the display resolution. Since there is no need to send the computer system back to the manufacturer to add the second brand information and its resolution information, there is no need to store a large amount of data in the computer system. To compare the brand information and its resolution information, so as to improve the efficiency of information processing, storage space utilization and convenience.

Another main technical means adopted to achieve the above purpose is to make the aforementioned computer system dynamically adapting to multiple brands and display resolutions, which includes: a display module; a processing module with a system firmware, the The processing module is connected to the display module, and the system firmware of the processing module stores more than one set of first brand information and its resolution information; wherein, the system firmware of the processing module obtains a The second label information and its resolution information, the system firmware of the processing module compares the stored first label information and its resolution information with the received second label information and its resolution information to see if they match , if not, the system firmware of the processing module processes the second brand information and its resolution information according to an image processing algorithm, and displays a first support prompt information through the display module.

Through the above system, it can be known that when the second label information and its resolution information obtained by the system firmware of the processing module do not match the stored first label information and its resolution information, the image processing is performed immediately. The algorithm processes the second brand information and its resolution information, and displays the first support prompt information through the display module, so as to achieve dynamic adaptation of the display resolution, and for the user to confirm, since there is no need to The computer system sends back the information of the new second brand to the manufacturer and its resolution information It also does not need to store a large amount of brand information and its resolution information for comparison in the computer system, so as to improve the efficiency of information processing, the utilization rate of storage space and the convenience.

10: Processing modules

20: Display module

30: External display device

40: Internal display device

S51, S52, S53, S54: Steps

FIG. 1 is a block diagram of the system architecture of the first preferred embodiment of the present invention.

FIG. 2 is a block diagram of the system architecture of the second preferred embodiment of the present invention.

FIG. 3 is a block diagram of the system architecture of the third preferred embodiment of the present invention.

FIG. 4 is a flow chart of a method according to a fourth preferred embodiment of the present invention.

Regarding the first preferred embodiment of the computer system dynamically adapting to multiple brands and display resolutions of the present invention, please refer to FIG. 1 , the computer system of the present invention includes a processing module 10 and a display module 20 . The processing module 10 is connected to the display module 20. The processing module 10 has a system firmware, and the system firmware stores more than one set of first brand information and its resolution information. In this embodiment, the set of first label information and its resolution information included in the system firmware of the processing module 10 includes a plurality of label information and its resolution information, specifically, a plurality of The first brand information and its resolution information include, but not limited to, such as Acer, gateway, emachine, predator and other brands and their resolution information. In this embodiment, the processing module 10 includes a processor (CPU); the display module 20 includes a display or a display card.

In this embodiment, the computer system of the present invention can be a computer device, and the system firmware of the processing module 10 and the display module 20 are installed in the computer device. The computer device may be a desktop computer, a notebook computer, a tablet computer, or the like.

The system firmware of the processing module 10 obtains a second brand information and its resolution information through the display module 20, and the system firmware of the processing module 10 obtains a second brand information and its resolution information according to the stored first brand information and its resolution information Check whether it matches the acquired second brand information and its resolution information, if not, the system firmware of the processing module 10 processes the second brand information and its resolution information according to an image processing algorithm , and display a first support prompt message through the display module 20 . In this embodiment, if yes, the system firmware of the processing module 10 directly displays a second support prompt information through the display module 20 according to the received second brand information and its resolution information. In this embodiment, the aforementioned first brand information can be a logo graphic of one of the corresponding brands, and the resolution information can be the maximum resolution information corresponding to the logo graphic of the brand, Therefore, when comparing the second label information and its resolution information with the first label information and its resolution information, only the maximum resolution information of the first label information is compared, thereby improving processing efficiency .

Specifically, the system firmware of the processing module 10 performs image adjustment according to the second label information and its resolution information through the image processing algorithm, so as to generate a third label information and its resolution information, and The first support prompt information is displayed according to the third brand information and its resolution information. In this embodiment, specifically, the image scale is adjusted according to the second label information and its resolution information through the image processing algorithm, so as to generate corresponding third label information and its resolution information. The image processing algorithm may be a Nearest Neighbor algorithm, a Bilinear Interpolation algorithm or a Bicubic Interpolation algorithm.

In this embodiment, the system firmware of the processing module 10 further stores more than one group of extended display identification information (Extended display identification, EDID, hereinafter referred to as EDID), and the EDID corresponds to the first brand information and its resolution information, and the EDID has a plurality of resolution information, so when the first label information and its resolution information have a plurality, the EDID also has a plurality. When the system firmware of the processing module 10 is based on the stored first brand information and its resolution When the information matches the obtained second label information and its resolution information, further check whether the obtained second label information and its resolution information match the resolution information of the EDID to confirm the processing. Whether the corresponding resolution is stored in the system firmware of the module 10 .

In this embodiment, the first support prompt information is displayed according to the third brand information and its resolution information, and the first support prompt information is a brand logo graphic whose display resolution has been adjusted . In the present embodiment, the second support prompt information is displayed according to the second brand information and its resolution information, and the second support prompt information is an original resolution obtained through the display module 20 . Brand logo graphics for users to confirm.

In this embodiment, further, the system firmware of the processing module 10 stores the generated third brand information and its resolution information, thereby creating new data during use for subsequent use. , which can quickly compare and improve processing efficiency.

In this embodiment, further, when the system firmware of the processing module 10 generates another third brand information and its resolution information, it replaces the originally stored third brand information and its resolution information and stored, so as to be quickly compared in the next use, and at the same time, the storage space of the system firmware occupied by the processing module 10 can be saved, so as to improve the utilization rate of the storage space.

Regarding the second preferred embodiment of the present invention, please refer to FIG. 2 , the second preferred embodiment is substantially the same as the first preferred embodiment, but the difference between the second preferred embodiment and the first preferred embodiment That is, the computer system of the second preferred embodiment further includes an external display device 30, and the external display device 30 is connected by the display module 20, and the display module 20 can be a display card module. In this embodiment, the external display device 30 is independent of the computer device and connected to the display module 20 .

In this embodiment, the system firmware of the processing module 10 obtains the second brand information and its resolution information from the external display device 30 via the display module 20 for processing.

Regarding the third preferred embodiment of the present invention, please refer to FIG. 3 , the third preferred embodiment is substantially the same as the first preferred embodiment, but the difference between the third preferred embodiment and the first preferred embodiment The computer system of the third preferred embodiment further includes an internal display device 40 connected to the display module 20, and the display module 20 can be a display card module. In this embodiment, the internal display device 40 is embedded in the computer device and connected to the display module 20 .

In this embodiment, the system firmware of the processing module 10 obtains the second brand information and its resolution information from the internal display device 40 via the display module 20 for processing.

Regarding the fourth preferred embodiment of the present invention, please refer to FIG. 4 . According to the above content, an information processing method for a computer system that dynamically adapts to multiple brands and display resolutions can be further summarized. The computer system has a The processing module 10 and a display module 20, the processing module 10 has a system firmware, and the system firmware stores more than one set of first brand information and its resolution information, and is controlled by the processing module 10. The system firmware executes the following steps: obtaining a second label information and its resolution information (S51); according to a ratio of the stored first label information and its resolution information and the obtained second label information and its resolution information Check whether it matches (S52); if not, process the second brand information and its resolution information according to an image processing algorithm, and display a first support prompt information through the display module 20 (S53). In this embodiment, if yes, a second support prompt information is displayed through the display module 20 according to the second brand information and its resolution information (S54).

In this embodiment, the system firmware of the processing module 10 performs image adjustment according to the second label information and its resolution information through the image algorithm to generate a third label information and its resolution information, and display the first support prompt information according to the third brand information and its resolution information. In this embodiment, the image algorithm is specifically based on the second label information and its The resolution information is used for image scale adjustment to generate corresponding third brand information and its resolution information.

In this embodiment, the image processing algorithm includes a Nearest Neighbor algorithm, a Bilinear Interpolation algorithm or a Bicubic Interpolation algorithm.

In this embodiment, when the above steps are executed to the step of “compare the stored first label information and its resolution information with the acquired second label information and its resolution information (S52)”, further According to whether the majority of resolution information in a set of EDID matches the second label information and its resolution information, if not, execute "According to an image processing algorithm for the second label information and its resolution information. Processing is performed, and a first support prompt message is displayed through the display module 20 (S53)." If it executes "display a second support prompt information through the display module 20 according to the second brand information and its resolution information (S54)".

In this embodiment, the first support prompt information is displayed according to the third brand information and its resolution information, and the first support prompt information is a brand logo graphic whose display resolution has been adjusted . In the present embodiment, the second support prompt information is displayed according to the second brand information and its resolution information, and the second support prompt information is an original resolution obtained through the display module 20 . Brand logo graphics for users to confirm.

In this embodiment, the third label information and its resolution information are further stored.

In this embodiment, when another third brand information and its resolution information are generated, the previously stored third brand information and its resolution information are replaced and stored.

According to the above content, when the system firmware of the processing module 10 compares the obtained second label information and its resolution information with the stored first label information and its resolution information, the image processing is performed immediately. The algorithm processes the second brand information and its resolution information, and displays the first support prompt information through the display module 20 to achieve dynamic adaptation of the display resolution and provide The user confirms that, since there is no need to send the computer system back to the manufacturer to add the second brand information and its resolution information, and there is no need to store a large amount of brand information and its resolution information for comparison in the computer system, This achieves improved information processing efficiency, storage space utilization and convenience.

10: Processing modules

20: Display module

Claims (9)

An information processing method for a computer system dynamically adapting to multiple brands and display resolutions, storing more than one set of first brand information and its resolution information, the method comprising the following steps: obtaining a second brand information and its resolution information. Resolution information; according to whether the stored first label information and its resolution information match with the obtained second label information and its resolution information; if not, according to an image processing algorithm for the first label The second brand information and its resolution information are processed, and a first support prompt information is displayed, and the first support prompt information is a logo graphic of a brand whose display resolution has been adjusted. The information processing method for a computer system that dynamically adapts to multiple brands and display resolutions as described in claim 1, wherein the image processing algorithm is used to perform image adjustment according to the second label information and its resolution information, to generate a third brand information and its resolution information, and display the first support prompt information according to the third brand information and its resolution information. The information processing method for a computer system dynamically adapting to multiple brands and display resolutions according to claim 2, wherein the third label information and its resolution information are further stored. The information processing method for a computer system that dynamically adapts to multiple labels and display resolutions as described in claim 3, wherein when another third label information and its resolution information are generated, the original stored third label information is replaced. Three brand information and its resolution information are stored. A computer system dynamically adapting to multiple brands and display resolutions, comprising: a display module; A processing module has a system firmware, the processing module is connected to the display module, and the system firmware of the processing module stores more than one set of first brand information and its resolution information; wherein, the processing module The system firmware of the group obtains a second brand information and its resolution information through the display module, and the system firmware of the processing module compares the received first brand information and its resolution information with the stored first brand information and its resolution information. The second label information and its resolution information are compared to see if they match, if not, the system firmware of the processing module processes the second label information and its resolution information according to an image processing algorithm, and sends the information through The display module displays a first support prompt information, and the first support prompt information is a brand logo graphic whose display resolution has been adjusted. The computer system that dynamically adapts to multiple brands and display resolutions as claimed in claim 5, wherein the system firmware of the processing module performs the processing according to the second label information and its resolution information through the image processing algorithm. The image is adjusted to generate a third brand information and its resolution information, and display the first support prompt information according to the third brand information and its resolution information. The computer system dynamically adapting to multiple brands and display resolutions according to claim 6, wherein the system firmware of the processing module stores the third brand information and its resolution information. The computer system for dynamically adapting multiple brands and display resolutions as claimed in claim 7, further comprising an external display device, the external display device is connected to the display module; the display module can be a display card module; the system firmware of the processing module obtains the corresponding second brand information and its resolution information from the external display device through the display module. The computer system for dynamically adapting multiple brands and display resolutions as claimed in claim 7, further comprising an internal display device connected to the display module; the display module can be a Graphics card module; the system firmware of this processing module is transparent Obtaining the corresponding second brand information and its resolution information from the internal display device through the display module.

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