CN111580847B - GPU (graphics processing unit) driving updating method and device, computer storage medium and electronic equipment - Google Patents

Abstract

GPU driving updating method and device, computer storage medium and electronic equipment, and the method and device comprise the following steps: when the display card core outside drive is updated, acquiring information of the display card core inside drive installed by the current operating system; when the information of the display card nuclear drive installed by the current operating system meets the detection condition of the display card nuclear drive to be installed, installing a display card nuclear drive software package to be installed; when the display card in-core drive is updated, acquiring the information of the operating system installed in the current operating system and the information of the display card out-of-core drive; and installing the display card in-core driving software package to be installed when the information of the currently installed operating system meets the first detection condition of the display card in-core driving to be installed and the information of the currently installed display card out-core driving of the operating system meets the second detection condition of the display card in-core driving to be installed. By adopting the scheme of the application, the effective update of the in-core drive and the out-of-core drive of the GPU is realized.

Description

GPU (graphics processing unit) driving updating method and device, computer storage medium and electronic equipment

Technical Field

The application relates to a GPU driving technology, in particular to a GPU driving updating method and device, a computer storage medium and electronic equipment.

Background

Generally, after a graphics card provider optimizes a graphics card (e.g., improving display performance, perfecting graphics card functions, etc.), a user side needs to update a graphics card driver to improve user experience. In addition, after the operating system manufacturer upgrades the operating system, the user also needs to upgrade the graphics card driver.

Problems in the prior art:

there is currently no GPU driven update scheme.

Disclosure of Invention

The embodiment of the application provides a GPU driving updating method and device, a computer storage medium and electronic equipment, and aims to solve the technical problems.

According to a first aspect of an embodiment of the present application, there is provided a GPU driving update method, including the steps of:

when the display card core outside drive is updated, acquiring information of the display card core inside drive installed by the current operating system;

when the information of the display card nuclear internal drive installed by the current operating system meets the detection condition of the display card nuclear external drive to be installed, installing the display card nuclear external drive software package to be installed;

the detection conditions of the display card out-of-core driver to be installed are stored in a software package of the display card out-of-core driver to be installed in advance.

According to a second aspect of the embodiment of the present application, there is provided a GPU driving update method, including the steps of:

when the display card in-core drive is updated, acquiring the information of the operating system installed in the current operating system and the information of the display card out-of-core drive;

installing the display card in-core driving software package to be installed when the information of the currently installed operating system meets a first detection condition of the display card in-core driving to be installed and the information of the currently installed display card out-core driving meets a second detection condition of the display card in-core driving to be installed;

the detection conditions of the display card nuclear drive to be installed are stored in a software package of the display card nuclear drive to be installed in advance.

According to a third aspect of the embodiment of the present application, there is provided a GPU driving update method, including the steps of:

when the out-of-core driver and the in-core driver of the display card are updated simultaneously, acquiring the information of the operating system installed in the current operating system and the information of the in-core driver and the out-of-core driver of the display card;

when the information of the operating system installed by the current operating system and the information of the display card nuclear outside driver to be installed meet the detection conditions of the display card nuclear inside driver to be installed and the detection conditions of the display card nuclear outside driver to be installed, simultaneously installing the display card nuclear inside driver to be installed and the display card nuclear outside driver software package to be installed;

The detection conditions of the display card nuclear drive to be installed are stored in the software package of the display card nuclear drive to be installed in advance, and the detection conditions of the display card nuclear drive to be installed are stored in the software package of the display card nuclear drive to be installed in advance.

According to a fourth aspect of an embodiment of the present application, there is provided a GPU driving update apparatus, including:

the first acquisition module is used for acquiring information of the display card nuclear drive installed in the current operating system when the display card nuclear drive is updated;

the first installation module is used for installing the display card nuclear outside-driver software package to be installed when the information of the display card nuclear inside-driver installed by the current operating system meets the detection condition of the display card nuclear outside-driver to be installed;

the detection conditions of the display card out-of-core driver to be installed are stored in a software package of the display card out-of-core driver to be installed in advance.

According to a fifth aspect of an embodiment of the present application, there is provided a GPU driving update apparatus, including:

the second acquisition module is used for acquiring the information of the operating system installed in the current operating system and the information of the driver outside the graphics card core when the driver inside the graphics card core is updated;

The second installation module is used for installing the display card in-core driving software package to be installed when the information of the currently installed operating system meets the first detection condition of the display card in-core driving to be installed and the information of the currently installed display card out-of-core driving to be installed meets the second detection condition of the display card in-core driving to be installed;

the detection conditions of the display card nuclear drive to be installed are stored in a software package of the display card nuclear drive to be installed in advance.

According to a sixth aspect of an embodiment of the present application, there is provided a GPU driving update apparatus, including:

the third acquisition module is used for acquiring the information of the operating system installed in the current operating system and the information of the display card nuclear drive and the display card nuclear drive when the display card nuclear drive and the display card nuclear drive are updated simultaneously;

the third installation module is used for simultaneously installing the display card nuclear internal drive to be installed and the display card nuclear external drive software package to be installed when the information of the operating system installed by the current operating system and the information of the display card nuclear external drive to be installed meet the detection conditions of the display card nuclear internal drive to be installed and the detection conditions of the display card nuclear external drive to be installed;

The detection conditions of the display card nuclear drive to be installed are stored in the software package of the display card nuclear drive to be installed in advance, and the detection conditions of the display card nuclear drive to be installed are stored in the software package of the display card nuclear drive to be installed in advance.

According to a seventh aspect of embodiments of the present application, there is provided a computer storage medium having stored thereon a computer program which, when executed by a processor, implements the steps of a GPU-driven update method as described above.

According to an eighth aspect of an embodiment of the present application, there is provided an electronic device including a memory for storing one or more programs, and one or more processors; the one or more programs, when executed by the one or more processors, implement the GPU-driven update method as described above.

By adopting the GPU driver updating method, the device, the computer storage medium and the electronic equipment provided by the embodiment of the application, before the in-core driver of the display card is installed, the in-core driver of the display card is matched with the operating system, before the out-of-core driver of the display card is installed, the in-core driver and the out-of-core driver of the display card can be effectively and correctly updated or rolled back with the operating system, and the updating of the in-core driver and the out-of-core driver of the GPU is realized.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this specification, illustrate embodiments of the application and together with the description serve to explain the application and do not constitute a limitation on the application. In the drawings:

FIG. 1 is a flowchart of a GPU driving update method according to a first embodiment of the present application;

FIG. 2 is a flowchart illustrating implementation of a GPU driving update method according to a second embodiment of the present application;

FIG. 3 is a schematic flow chart illustrating implementation of a GPU driving update method according to a third embodiment of the present application;

fig. 4 is a schematic structural diagram of a GPU-driven updating device according to a fourth embodiment of the present application;

fig. 5 is a schematic structural diagram of a GPU driving updating device in a fifth embodiment of the present application;

fig. 6 is a schematic structural diagram of a GPU-driven updating device in a sixth embodiment of the present application;

fig. 7 is a schematic structural diagram of an electronic device according to an eighth embodiment of the present application;

FIG. 8 is a schematic diagram of a nine-core driver installation flow in accordance with an embodiment of the present application;

FIG. 9 is a schematic diagram of an out-of-core driver installation flow in accordance with an embodiment of the present application;

FIG. 10 is a schematic diagram of a simultaneous installation process of an in-core driver and an out-of-core driver in accordance with an embodiment of the present application.

Detailed Description

The inventors noted during the course of the application that:

the graphics card driver may be further divided into an in-core driver and an out-core driver, where the in-core driver is closely associated with the operating system kernel and is typically maintained by both the graphics card manufacturer and the operating system manufacturer, the out-core driver may be maintained by the graphics card manufacturer or provider, and the out-core driver is typically updated more frequently than the in-core driver, and the out-core driver needs to be matched with the in-core driver.

The mismatch of the operating system, the graphics card in-core driver and the graphics card out-of-core driver can cause that the graphics card can not normally display after the operating system is started, and no updating scheme of the GPU in-core driver and the out-of-core driver exists at present.

Therefore, the application provides a GPU driving updating scheme to realize updating of the GPU driving.

In order to make the technical solutions and advantages of the embodiments of the present application more apparent, the following detailed description of exemplary embodiments of the present application is provided in conjunction with the accompanying drawings, and it is apparent that the described embodiments are only some embodiments of the present application and not exhaustive of all embodiments. It should be noted that, without conflict, the embodiments of the present application and features of the embodiments may be combined with each other.

Example 1

Fig. 1 is a flowchart illustrating an implementation of a GPU driver update method according to a first embodiment of the present application.

As shown, the GPU driving update method includes:

step 101, when the display card core outside drive is updated, obtaining the information of the display card core inside drive installed by the current operating system;

102, installing the display card out-of-core driving software package to be installed when the information of the display card in-core driving installed by the current operating system meets the detection condition of the display card out-of-core driving to be installed;

the detection conditions of the display card out-of-core driver to be installed are stored in a software package of the display card out-of-core driver to be installed in advance.

By adopting the GPU driver updating method provided by the embodiment of the application, the matching confirmation is carried out between the out-of-core driver of the display card and the in-core driver before the out-of-core driver is installed, so that the out-of-core driver of the GPU is updated.

In one embodiment, determining whether the information of the graphics card in-core driver installed by the current operating system meets a detection condition of the graphics card out-of-core driver to be installed includes:

storing version information of the display card nuclear drive installed by the current operating system in a first variable, and storing keywords corresponding to detection conditions of the display card nuclear drive to be installed in a second variable;

And when the first variable is greater than or equal to the second variable, determining that the information of the display card nuclear drive installed by the current operating system meets the detection condition of the display card nuclear drive to be installed.

In one embodiment, the method further comprises:

when the out-of-core driver and the in-core driver of the display card are updated simultaneously, acquiring the information of the operating system installed in the current operating system and the information of the in-core driver and the out-of-core driver of the display card;

when the information of the operating system installed by the current operating system meets the detection conditions of the display card nuclear drive to be installed, the display card nuclear drive to be installed does not meet the detection conditions of the display card nuclear drive to be installed, but the display card nuclear drive installed by the current operating system meets the detection conditions of the display card nuclear drive to be installed, only installing the display card nuclear drive software package to be installed;

when the information of the operating system installed by the current operating system and the information of the display card nuclear outside-driver to be installed meet the detection conditions of the display card nuclear inside-driver to be installed and the display card nuclear inside-driver to be installed do not meet the detection conditions of the display card nuclear outside-driver to be installed, but the display card nuclear inside-driver installed by the current operating system meets the detection conditions of the display card nuclear outside-driver to be installed, only installing the display card nuclear outside-driver software package to be installed;

When the information of the operating system installed by the current operating system and the information of the display card nuclear outside driver to be installed meet the detection conditions of the display card nuclear inside driver to be installed and the detection conditions of the display card nuclear outside driver to be installed, simultaneously installing the display card nuclear inside driver to be installed and the display card nuclear outside driver software package to be installed;

the detection conditions of the display card nuclear drive to be installed are stored in a software package of the display card nuclear drive to be installed in advance.

In one embodiment, whether the operating system information of the installed current operating system meets the detection condition of the display card nuclear drive to be installed is judged as follows: storing whether a third variable of version information of an operating system installed in the current operating system is larger than or equal to a fourth variable of a keyword corresponding to a first detection condition of a display card in-core driver to be installed;

judging whether the out-of-core driver of the display card to be installed meets the detection condition of the in-core driver of the display card to be installed, wherein the detection condition is as follows: whether a fifth variable of version information of the display card core external driver to be installed is greater than or equal to a sixth variable of a keyword corresponding to a second detection condition of the display card core internal driver to be installed is stored;

Judging whether the out-of-core driver of the display card installed by the current operating system meets the detection condition of the in-core driver of the display card to be installed, wherein the detection condition is as follows: storing whether a seventh variable of version information of the display card out-of-core driver installed in the current operating system is larger than or equal to a sixth variable of a keyword corresponding to a second detection condition of the display card in-core driver to be installed;

judging whether the display card nuclear internal drive to be installed meets the detection condition of the display card nuclear external drive to be installed or not, wherein the detection condition is as follows: whether the eighth variable for storing the display card in-core drive version information to be installed is larger than or equal to the second variable for storing the detection condition of the display card out-core drive to be installed;

judging whether the current display card nuclear drive installed by the operating system meets the detection condition of the display card nuclear drive to be installed or not, wherein the detection condition is as follows: whether a first variable storing the information of the display card in-core driver version installed by the current operating system is larger than or equal to a second variable storing the detection condition of the display card out-core driver to be installed or not.

Example two

Fig. 2 is a flow chart illustrating implementation of a GPU driving update method according to a second embodiment of the present application.

As shown, the GPU driving update method includes:

step 201, when the display card kernel driver is updated, acquiring the information of the operating system installed in the current operating system and the information of the display card kernel driver;

Step 202, installing the display card in-core driving software package to be installed when the information of the installed operation system of the current operation system meets a first detection condition of the display card in-core driving to be installed and the information of the installed display card out-core driving of the current operation system meets a second detection condition of the display card in-core driving to be installed;

the detection conditions of the display card nuclear drive to be installed are stored in a software package of the display card nuclear drive to be installed in advance.

By adopting the GPU driver updating method provided by the embodiment of the application, the matching confirmation is carried out between the graphics card and the operating system before the in-core driver is installed, so that the updating of the GPU in-core driver is realized.

In one embodiment, determining whether the information of the operating system installed in the current operating system satisfies a first detection condition of the graphics card in-core driver to be installed and whether the information of the graphics card out-of-core driver installed in the current operating system satisfies a second detection condition of the graphics card in-core driver to be installed includes:

storing the version information of the installed operating system of the current operating system in a third variable, storing the version information of the out-of-core driver of the display card of the installed operating system in a seventh variable, storing keywords corresponding to the first detection condition of the in-core driver of the display card to be installed in a fourth variable, and storing keywords corresponding to the second detection condition of the in-core driver of the display card to be installed in a sixth variable;

When the third variable is greater than or equal to the fourth variable and the seventh variable is greater than or equal to the sixth variable, determining that the information of the currently installed operating system meets a first detection condition of the display card in-core drive to be installed and the information of the currently installed display card out-core drive meets a second detection condition of the display card in-core drive to be installed.

In one embodiment, the method further comprises:

when the out-of-core driver and the in-core driver of the display card are updated simultaneously, acquiring the information of the operating system installed in the current operating system and the information of the in-core driver and the out-of-core driver of the display card;

when the information of the operating system installed by the current operating system meets the detection conditions of the display card nuclear drive to be installed, the display card nuclear drive to be installed does not meet the detection conditions of the display card nuclear drive to be installed, but the display card nuclear drive installed by the current operating system meets the detection conditions of the display card nuclear drive to be installed, only installing the display card nuclear drive software package to be installed;

when the information of the operating system installed by the current operating system and the information of the display card nuclear outside-driver to be installed meet the detection conditions of the display card nuclear inside-driver to be installed and the display card nuclear inside-driver to be installed do not meet the detection conditions of the display card nuclear outside-driver to be installed, but the display card nuclear inside-driver installed by the current operating system meets the detection conditions of the display card nuclear outside-driver to be installed, only installing the display card nuclear outside-driver software package to be installed;

When the information of the operating system installed by the current operating system and the information of the display card nuclear outside driver to be installed meet the detection conditions of the display card nuclear inside driver to be installed and the detection conditions of the display card nuclear outside driver to be installed, simultaneously installing the display card nuclear inside driver to be installed and the display card nuclear outside driver software package to be installed;

the detection conditions of the display card nuclear drive to be installed are stored in a software package of the display card nuclear drive to be installed in advance.

In one embodiment, whether the operating system information of the installed current operating system meets the detection condition of the display card nuclear drive to be installed is judged as follows: storing whether a third variable of version information of an operating system installed in the current operating system is larger than or equal to a fourth variable of a keyword corresponding to a first detection condition of a display card in-core driver to be installed;

judging whether the out-of-core driver of the display card to be installed meets the detection condition of the in-core driver of the display card to be installed, wherein the detection condition is as follows: whether a fifth variable of version information of the display card core external driver to be installed is greater than or equal to a sixth variable of a keyword corresponding to a second detection condition of the display card core internal driver to be installed is stored;

Judging whether the out-of-core driver of the display card installed by the current operating system meets the detection condition of the in-core driver of the display card to be installed, wherein the detection condition is as follows: storing whether a seventh variable of version information of the display card out-of-core driver installed in the current operating system is larger than or equal to a sixth variable of a keyword corresponding to a second detection condition of the display card in-core driver to be installed;

judging whether the display card nuclear internal drive to be installed meets the detection condition of the display card nuclear external drive to be installed or not, wherein the detection condition is as follows: whether the eighth variable for storing the display card in-core drive version information to be installed is larger than or equal to the second variable for storing the detection condition of the display card out-core drive to be installed;

judging whether the current display card nuclear drive installed by the operating system meets the detection condition of the display card nuclear drive to be installed or not, wherein the detection condition is as follows: whether a first variable storing the information of the display card in-core driver version installed by the current operating system is larger than or equal to a second variable storing the detection condition of the display card out-core driver to be installed or not.

Example III

Fig. 3 is a schematic flow chart of a GPU driving update method according to a third embodiment of the present application.

As shown, the GPU driving update method includes:

step 301, when the out-of-core driver and the in-core driver of the display card are updated simultaneously, acquiring the information of the operating system installed in the current operating system and the information of the in-core driver and the out-of-core driver of the display card;

Step 302, installing the graphics card nuclear drive to be installed and the graphics card nuclear drive software package to be installed simultaneously when the information of the operating system installed by the current operating system and the information of the graphics card nuclear drive to be installed meet the detection conditions of the graphics card nuclear drive to be installed and the detection conditions of the graphics card nuclear drive to be installed;

the detection conditions of the display card nuclear drive to be installed are stored in the software package of the display card nuclear drive to be installed in advance, and the detection conditions of the display card nuclear drive to be installed are stored in the software package of the display card nuclear drive to be installed in advance.

By adopting the GPU driving updating method provided by the embodiment of the application, the in-core driving and the out-of-core driving of the display card can be effectively and correctly updated or rolled back with the operating system, and the updating of the in-core driving and the out-of-core driving of the GPU is realized.

In one embodiment, only the graphics card in-core driver software package to be installed is installed when the currently installed operating system information satisfies the detection condition of the graphics card in-core driver to be installed, the graphics card out-core driver to be installed does not satisfy the detection condition of the graphics card in-core driver to be installed, but the graphics card out-core driver installed by the currently operating system satisfies the detection condition of the graphics card in-core driver to be installed;

And when the information of the operating system installed by the current operating system and the information of the display card nuclear outside-driver to be installed meet the detection conditions of the display card nuclear inside-driver to be installed and the display card nuclear inside-driver to be installed do not meet the detection conditions of the display card nuclear outside-driver to be installed, but the display card nuclear inside-driver installed by the current operating system meets the detection conditions of the display card nuclear outside-driver to be installed, only installing the display card nuclear outside-driver software package to be installed.

In one embodiment, whether the operating system information of the installed current operating system meets the detection condition of the display card nuclear drive to be installed is judged as follows: storing whether a third variable of version information of an operating system installed in the current operating system is larger than or equal to a fourth variable of a keyword corresponding to a first detection condition of a display card in-core driver to be installed;

judging whether the out-of-core driver of the display card to be installed meets the detection condition of the in-core driver of the display card to be installed, wherein the detection condition is as follows: whether a fifth variable of version information of the display card core external driver to be installed is greater than or equal to a sixth variable of a keyword corresponding to a second detection condition of the display card core internal driver to be installed is stored;

Judging whether the out-of-core driver of the display card installed by the current operating system meets the detection condition of the in-core driver of the display card to be installed, wherein the detection condition is as follows: storing whether a seventh variable of version information of the display card out-of-core driver installed in the current operating system is larger than or equal to a sixth variable of a keyword corresponding to a second detection condition of the display card in-core driver to be installed;

judging whether the display card nuclear internal drive to be installed meets the detection condition of the display card nuclear external drive to be installed or not, wherein the detection condition is as follows: whether the eighth variable for storing the display card in-core drive version information to be installed is larger than or equal to the second variable for storing the detection condition of the display card out-core drive to be installed;

judging whether the current display card nuclear drive installed by the operating system meets the detection condition of the display card nuclear drive to be installed or not, wherein the detection condition is as follows: whether a first variable storing the information of the display card in-core driver version installed by the current operating system is larger than or equal to a second variable storing the detection condition of the display card out-core driver to be installed or not.

Example IV

Based on the same inventive concept, the embodiment of the application provides a GPU driving updating device, the principle of the device for solving the technical problem is similar to that of a GPU driving updating method, and the repetition is not repeated.

Fig. 4 is a schematic structural diagram of a GPU driver update device according to a fourth embodiment of the present application.

As shown, the GPU driving updating device includes:

a first obtaining module 401, configured to obtain information of a graphics card core driver installed in a current operating system when updating the graphics card core driver;

a first installation module 402, configured to install the graphics card out-of-core driver software package to be installed when the information of the graphics card in-core driver installed by the current operating system meets a detection condition of the graphics card out-of-core driver to be installed;

the detection conditions of the display card out-of-core driver to be installed are stored in a software package of the display card out-of-core driver to be installed in advance.

By adopting the GPU driver updating device provided by the embodiment of the application, the matching confirmation is carried out between the out-of-core driver of the display card and the in-core driver before the out-of-core driver is installed, so that the updating of the out-of-core driver of the GPU is realized.

Example five

Based on the same inventive concept, the embodiment of the application provides a GPU driving updating device, the principle of the device for solving the technical problem is similar to that of a GPU driving updating method, and the repetition is not repeated.

Fig. 5 is a schematic structural diagram of a GPU driving updating device in a fifth embodiment of the present application.

As shown, the GPU driving updating device includes:

the second obtaining module 501 is configured to obtain, when updating the graphics card kernel driver, information of an operating system installed in the current operating system and information of a graphics card kernel driver;

the second installation module 502 is configured to install the graphics card in-core driver software package to be installed when the information of the currently installed operating system meets a first detection condition of the graphics card in-core driver to be installed and the information of the currently installed graphics card out-of-core driver meets a second detection condition of the graphics card in-core driver to be installed;

the detection conditions of the display card nuclear drive to be installed are stored in a software package of the display card nuclear drive to be installed in advance.

By adopting the GPU driver updating device provided by the embodiment of the application, the matching confirmation is carried out between the display card and the operating system before the in-core driver is installed, so that the updating of the GPU in-core driver is realized.

Example six

Based on the same inventive concept, the embodiment of the application provides a GPU driving updating device, the principle of the device for solving the technical problem is similar to that of a GPU driving updating method, and the repetition is not repeated.

Fig. 6 is a schematic structural diagram of a GPU-driven updating device in a sixth embodiment of the present application.

As shown, the GPU driving updating device includes:

the third obtaining module 601 is configured to obtain, when the out-of-core driver and the in-core driver of the graphics card are updated simultaneously, information of an operating system installed in a current operating system and information of the in-core driver and the out-of-core driver of the graphics card;

a third installation module 602, configured to simultaneously install the graphics card nuclear driver to be installed and the graphics card nuclear driver software package to be installed when the information of the currently installed operating system and the information of the graphics card nuclear driver to be installed both satisfy the detection condition of the graphics card nuclear driver to be installed and the detection condition of the graphics card nuclear driver to be installed;

the detection conditions of the display card nuclear drive to be installed are stored in the software package of the display card nuclear drive to be installed in advance, and the detection conditions of the display card nuclear drive to be installed are stored in the software package of the display card nuclear drive to be installed in advance.

By adopting the GPU driving updating device provided by the embodiment of the application, the in-core driving and the out-of-core driving of the display card can be effectively and correctly updated or rolled back with the operating system, so that the updating of the in-core driving and the out-of-core driving of the GPU is realized.

Example seven

Based on the same inventive concept, the embodiments of the present application also provide a computer storage medium, which is described below.

The computer storage medium having stored thereon a computer program which, when executed by a processor, implements the steps of the GPU drive update method as described in any of embodiments one to three.

By adopting the computer storage medium provided by the embodiment of the application, the in-core driver of the display card is matched and confirmed with the operating system before being installed, and the out-of-core driver of the display card is matched and confirmed with the in-core driver before being installed, so that the in-core driver and the out-of-core driver of the display card can be effectively and correctly updated or rolled back with the operating system, and the updating of the in-core driver and the out-of-core driver of the GPU is realized.

Example eight

Based on the same inventive concept, the embodiment of the application further provides an electronic device, and the following description is made.

Fig. 7 shows a schematic structural diagram of an electronic device in an eighth embodiment of the present application.

As shown, the electronic device includes a memory 701 for storing one or more programs, and one or more processors 702; the GPU driving updating method according to any one of the first to third embodiments is implemented when the one or more programs are executed by the one or more processors.

By adopting the computer storage medium provided by the embodiment of the application, the in-core driver of the display card is matched and confirmed with the operating system before being installed, and the out-of-core driver of the display card is matched and confirmed with the in-core driver before being installed, so that the in-core driver and the out-of-core driver of the display card can be effectively and correctly updated or rolled back with the operating system, and the updating of the in-core driver and the out-of-core driver of the GPU is realized.

Example nine

To facilitate the practice of the present application, embodiments of the present application will be described with the specific example of separately installing an in-core driver.

The embodiment of the application adds Check, support keywords and detection conditions into the information of the display card nuclear drive package (mwv-dkms-closed):

Package:mwv206-dkms-closed

Version:0.5.0

Check:linux([<>＝]x.y.z[,[<>＝]x.y.z])[,]

Support:mwv206-dev([<>＝]x.y.z[,[<>＝]x.y.z])[,]

check, support key indicates that the specified condition must be satisfied in the operating system when the package is installed or in the corresponding software installed at the same time, and that some or all of the package is not installed if the condition is not satisfied. The function of detection when the software is updated is achieved by designating installation conditions at the time of installation and adding a detection flow in a post script at the time of software package installation.

Detection flow of separately installing mwv-dkms-closed (in-core driver) software package

FIG. 8 is a schematic diagram of a nine-core driver installation process according to an embodiment of the present application.

As shown, includes:

step 1: mwv206-dkms-closed (in-core driver) packages were installed using the dpkg-i command;

step 2: package, version, check, support information in an installed mwv-dkms-closed software package is acquired in a post script;

Package:mwv206-dkms-closed

Version:0.5.0

Check:linux(＞＝4.4.131)

Support:mwv206-dev(＞＝0.4.9)

step 3: analyzing the' Check, support keyword information, and storing the keyword information into check_linux and support_ mwv206-dev variables;

Check_linux＞＝4.4.131

Support_mwv206-dev＞＝0.4.9

step 4: version information of a linux and mwv206-dev software package which are already installed in a current operating system is obtained and is stored into current_linux and current_ mwv206-dev variables;

step 5: judging whether the linux software package information obtained in the step 3 and the step 4 meets the requirements or not;

that is, whether current_linux is > =check_linux is determined;

step 6: if the condition of step 5 is not satisfied, the method prompts that the version of the linux software package is incompatible and cannot be installed and ends.

Step 7: if the condition of the step 5 is met, further judging whether the mwv206_dev software package information obtained in the step 3 and the step 4 meets the requirement or not;

that is, it is determined whether current_ mwv206-dev > = support_ mwv206-dev;

step 8: if the "step 7" condition is not satisfied, it is prompted that the "mwv206-dkms-closed software package is not compatible with mwv-dev of the system, please install" with compatible mwv206-dkms-closed and mwv206-dev software, and "end".

Step 9: if the "step 7" condition is satisfied, the mwv206-dkms-closed software package is installed and "ended".

When the display card kernel driver is independently installed, the new display card kernel driver is installed only when the operating system kernel is matched with the newly installed display card kernel driver.

Examples ten

To facilitate the practice of the present application, embodiments of the present application will be described with the specific example of separately installing an out-of-core driver.

According to the embodiment of the application, check keywords and detection conditions are added into information of a display card out-of-core driving package (mwv-dev):

Package:mwv206-dev

Version:0.5.0

Check:mwv206-dkms-closed([<>＝]x.y.z[,[<>＝]x.y.z])[,]

wherein mwv-dkms-closed is an in-core driver package.

The Check key indicates that a specified condition must be satisfied in the operating system when the package is installed or in the corresponding software installed at the same time, and that some or all of the package is not installed if the condition is not satisfied. The function of detection when the software is updated is achieved by designating installation conditions at the time of installation and adding a detection flow in a post script at the time of software package installation.

Detection flow of separately installing mwv-dev (out-of-core driver) software package

Fig. 9 shows a schematic diagram of an out-of-core driver installation flow in accordance with an embodiment of the present application.

As shown, includes:

step 1: install mwv206-dev package (out-of-core driver) using dpkg-i command;

Step 2: package, version, check information in an installed mwv-dev software package is obtained in a post script;

Package:mwv206-dev

Version:0.5.0

Check:mwv206-dkms-closed(＞＝0.4.9)；

step 3: parsing the Check key information, and storing the check_ mwv-dkms-closed variable into a check_ mwv-206-dkms-closed variable, wherein the check_ mwv-dkms-closed= 0.4.9;

step 4: version information of a mwv206-dkms-closed (in-core drive) software package which is already installed in a current operating system is acquired and is stored into a current_ mwv206-dkms-closed variable;

step 5: judging whether mwv-dkms-closed software package information obtained in the step 3 and the step 4 meets the requirement or not;

that is, it is determined whether the current_ mwv206-dkms-closed variable is equal to or greater than the check_ mwv206-dkms-closed variable;

step 7: if the "step 5" condition is not satisfied, it is prompted "mwv that the 206-dev package is not compatible with mwv-dkms-closed in the system, please install" with compatible mwv206-dkms-closed and mwv-dev software, and "end".

Step 6: if the "step 5" condition is satisfied, the mwv206-dev software package is installed and "ended".

When the external driver of the display card is independently installed, the embodiment of the application installs the new external driver of the display card only when the original internal driver of the display card in the operating system is matched with the newly installed external driver of the display card.

Example eleven

To facilitate the practice of the present application, embodiments of the present application will be described with the simultaneous installation of both the in-core driver and the out-of-core driver as specific examples.

Detection flow for simultaneously installing mwv-dkms-closed (in-core driver) and mwv-dev (out-of-core driver) software packages

FIG. 10 is a schematic diagram of a simultaneous installation process of an in-core driver and an out-of-core driver in accordance with an embodiment of the present application.

As shown, includes:

step 1: mwv206-dkms-closed (in-core drive) and mwv-206-dev (out-of-core drive) packages were installed using the dpkg-i command;

step 2: acquiring the version information of the installed mwv-dkms-closed and mwv-dev software in the post script, and storing the version information into the install_ mwv206-dkms-closed and install_ mwv206-dev variables;

step 3: acquiring Package, version, check, support information in an installed mwv206-dkms-closed software package;

Package:mwv206-dkms-closed

Version:0.5.0

Check:linux(＞＝4.4.131)

Support:mwv206-dev(＞＝0.4.9)；

step 4: obtaining Package, version, check information in an installed mwv206-dev software package;

Package:mwv206-dev

Version:0.5.0

Check:mwv206-dkms-closed(＞＝0.4.9)；

step 5: analyzing the Check, support key information in the step 3 and the step 4, and storing the key information into check_ linux, support _ mwv206-dev and check_ mwv206-dkms-closed variables;

Check_linux＞＝4.4.131

Support_mwv206-dev＞＝0.4.9

Check_mwv206-dkms-closed＞＝0.4.9

step 6: version information of the linux, mwv206-dkms-closed and mwv-dev software packages which are already installed in the current operating system is obtained and is stored into current_ linux, current _ mwv206-dkms-closed and current_ mwv206-dev variables;

Step 7: judging whether the linux software package information obtained in the step 5 and the step 6 meets the requirements or not;

that is, whether current_linux is > =check_linux is determined;

step 8: if the condition of step 6 is not satisfied, the method prompts that the version of the linux software package is incompatible and cannot be installed and ends.

Step 9: if the condition of the step 6 is met, further judging whether the sample_ mwv206_dev and the support_ mwv206_dev obtained in the step 5 and the step 6 meet the requirements or not;

that is, it is determined whether install_ mwv206-dev > = support_ mwv206-dev;

step 10: if the condition of the step 9 is not satisfied, judging whether current_ mwv206_dev and support_ mwv206_dev obtained in the step 5 and the step 6 meet the requirements or not;

that is, it is determined whether current_ mwv206-dev > = support_ mwv206-dev;

step 11: if the "step 10" condition is satisfied, installing mwv206-dkms-closed software package;

step 12: prompting "mwv-dev package version incompatible cannot install" and "end";

step 13: if the condition of the step 9 is met, judging whether the sample_ mwv206-dkms-closed and check_ mwv206-dkms-closed obtained in the step 5 and the step 6 meet the requirements or not;

That is, it is determined whether install_ mwv206-dkms-closed > = check_ mwv206-dkms-closed;

step 14: if the condition of the step 10 is not satisfied, judging whether current_ mwv206-dkms-closed and check_ mwv206-dkms-closed obtained in the step 5 and the step 6 satisfy the requirements or not;

that is, it is determined whether current_ mwv206-dkms-closed is > = check_ mwv206-dkms-closed;

step 15: if the "step 10" or "step 14" conditions are not met, the "mwv206-dkms-closed software package is not compatible with mwv-dev, please install" with compatible mwv206-dkms-closed and mwv206-dev software, and "end";

step 16: if the "step 14" condition is satisfied, installing mwv206-dev software package;

step 17: prompting "mwv-dkms-closed software package version incompatible cannot be installed" and "end";

step 18: if the "step 13" condition is satisfied, the mwv206-dkms-closed and mwv-dev packages are installed and "end".

When the display card nuclear and the extranuclear drivers are simultaneously installed, the operating system kernel is matched with the installed display card nuclear and the original display card nuclear driver in the operating system is matched with the newly installed extranuclear driver, and the display card nuclear and the extranuclear drivers are simultaneously installed;

It will be appreciated by those skilled in the art that embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein. The scheme in the embodiment of the application can be realized by adopting various computer languages, such as object-oriented programming language Java, an transliteration script language JavaScript and the like.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems) and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flowchart illustrations and/or block diagrams, and combinations of flows and/or blocks in the flowchart illustrations and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

While preferred embodiments of the present application have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. It is therefore intended that the following claims be interpreted as including the preferred embodiments and all such alterations and modifications as fall within the scope of the application.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present application without departing from the spirit or scope of the application. Thus, it is intended that the present application also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (5)

1. A method for GPU-driven updating, comprising:

when the display card in-core drive is updated, acquiring the information of the operating system installed in the current operating system and the information of the display card out-of-core drive;

installing the display card in-core driving software package to be installed when the information of the currently installed operating system meets a first detection condition of the display card in-core driving to be installed and the information of the currently installed display card out-core driving meets a second detection condition of the display card in-core driving to be installed;

the detection conditions of the display card nuclear drive to be installed are stored in a software package of the display card nuclear drive to be installed in advance;

judging whether the information of the installed operating system of the current operating system meets a first detection condition of the display card nuclear internal drive to be installed and the information of the installed display card nuclear external drive of the current operating system meets a second detection condition of the display card nuclear internal drive to be installed or not, comprising the following steps:

Storing the version information of the installed operating system of the current operating system in a third variable, storing the version information of the out-of-core driver of the display card of the installed operating system in a seventh variable, storing keywords corresponding to the first detection condition of the in-core driver of the display card to be installed in a fourth variable, and storing keywords corresponding to the second detection condition of the in-core driver of the display card to be installed in a sixth variable;

when the third variable is greater than or equal to the fourth variable and the seventh variable is greater than or equal to the sixth variable, determining that the information of the currently installed operating system meets a first detection condition of the display card nuclear drive to be installed and the information of the currently installed display card nuclear drive meets a second detection condition of the display card nuclear drive to be installed.

2. The method as recited in claim 1, further comprising:

when the out-of-core driver and the in-core driver of the display card are updated simultaneously, acquiring the information of the operating system installed in the current operating system and the information of the in-core driver and the out-of-core driver of the display card;

when the information of the operating system installed by the current operating system meets the detection conditions of the display card nuclear drive to be installed, the display card nuclear drive to be installed does not meet the detection conditions of the display card nuclear drive to be installed, but the display card nuclear drive installed by the current operating system meets the detection conditions of the display card nuclear drive to be installed, only installing the display card nuclear drive software package to be installed;

When the information of the operating system installed by the current operating system and the information of the display card nuclear outside-driver to be installed meet the detection conditions of the display card nuclear inside-driver to be installed and the display card nuclear inside-driver to be installed do not meet the detection conditions of the display card nuclear outside-driver to be installed, but the display card nuclear inside-driver installed by the current operating system meets the detection conditions of the display card nuclear outside-driver to be installed, only installing the display card nuclear outside-driver software package to be installed;

when the information of the operating system installed by the current operating system and the information of the display card nuclear outside driver to be installed meet the detection conditions of the display card nuclear inside driver to be installed and the detection conditions of the display card nuclear outside driver to be installed, simultaneously installing the display card nuclear inside driver to be installed and the display card nuclear outside driver software package to be installed;

the detection conditions of the display card nuclear drive to be installed are stored in a software package of the display card nuclear drive to be installed in advance.

3. The method of claim 1, wherein the step of determining the position of the substrate comprises,

judging whether the information of the operating system installed in the current operating system meets the detection condition of the display card nuclear drive to be installed or not, wherein the detection condition is as follows: storing whether a third variable of version information of an operating system installed in the current operating system is larger than or equal to a fourth variable of a keyword corresponding to a first detection condition of a display card in-core driver to be installed;

Judging whether the out-of-core driver of the display card to be installed meets the detection condition of the in-core driver of the display card to be installed, wherein the detection condition is as follows: whether a fifth variable of version information of the display card core external driver to be installed is greater than or equal to a sixth variable of a keyword corresponding to a second detection condition of the display card core internal driver to be installed is stored;

judging whether the out-of-core driver of the display card installed by the current operating system meets the detection condition of the in-core driver of the display card to be installed, wherein the detection condition is as follows: storing whether a seventh variable of version information of the display card out-of-core driver installed in the current operating system is larger than or equal to a sixth variable of a keyword corresponding to a second detection condition of the display card in-core driver to be installed;

judging whether the display card nuclear internal drive to be installed meets the detection condition of the display card nuclear external drive to be installed or not, wherein the detection condition is as follows: whether the eighth variable for storing the display card in-core drive version information to be installed is larger than or equal to the second variable for storing the detection condition of the display card out-core drive to be installed;

judging whether the current display card nuclear drive installed by the operating system meets the detection condition of the display card nuclear drive to be installed or not, wherein the detection condition is as follows: whether a first variable storing the information of the display card in-core driver version installed by the current operating system is larger than or equal to a second variable storing the detection condition of the display card out-core driver to be installed or not.

4. A computer storage medium, characterized in that it has stored thereon a computer program which, when executed by a processor, implements the steps of the method according to any of claims 1 to 3.

5. An electronic device comprising a memory for storing one or more programs, and one or more processors; the one or more programs, when executed by the one or more processors, implement the method of any of claims 1-3.