A method including running a virtualization layer on a processor, the virtualization layer being adapted to assign processor time and memory to first and second guest operating systems running on the virtualization layer, wherein the first guest operating system is a real time operating system, obtaining, by the second guest system, information to be displayed on a display, preparing, by the second guest system, a display frame to be sent to the display, reading, by the first guest system, a portion of the display frame, or retrieving, by the first guest system, information about a read portion of the display frame, and determining, by the first guest system, whether the information sent to the second guest system is correctly generated in the display frame.

The technical solutions relate to the technical field of compilation of applications, and particularly to the technical field of mini programs. A developer tool constructs a first compilation result of the hosted APP before compilation optimization and a second compilation result of the hosted APP after the compilation optimization respectively based on a source code of the hosted APP, and uploads them to a management platform. The management platform sends the corresponding compilation results according to environment data of the hosted APP running environment provided by the host APP, so that the host APP uses the hosted APP running environment provided by the host APP to run the obtained compilation result.

Systems and methods for version control of pipelined enterprise software are disclosed. Exemplary implementations may: store information for executable code of software applications that are installed and executable by users, receive first user input from a first user that represents selection by the first user of a first software pipeline for execution; receive second user input from a second user that represents a second selection by the second user of a second software pipeline for execution, wherein the second software pipeline includes different versions of software applications that are included in the first software pipeline; facilitate execution of the first software pipeline for the first user; and facilitate execution of the second software pipeline for the second user at the same time as the execution of the first software pipeline for the first user.

An administrator system can utilize a history generated by a tagging tool to determine the current configuration of computing systems. The administrator system can utilize the current configuration to verify that the computing systems have been configured properly and verify, over time, that the computing systems maintain the desired configuration. The administrator system can compare the current configuration with the desired configuration for the computing systems.

One embodiment is directed to a method performed by a computing device. The method includes (1) receiving a command from a user to display a current GUI page of a set of GUI pages on a client device, the set of GUI pages providing the user with control over a system, (2) selecting, with reference to a proficiency level associated with the user, a version of the current GUI page from a plurality of versions of the current GUI page, and (3) causing the selected version of the current GUI page to be displayed to the user on a display of the client device. Other embodiments are directed to a computerized apparatus and a computer program product for performing a method similar to that described above.

Embodiments include method, systems and computer program products for an interactive, multi-level failsafe capability. In some embodiments, a failed count indicative of a number of failed attempts to launch an application may be received. A failsafe mode level corresponding to the failed count may be determined. The failsafe mode level may be initialized in response to determining the failsafe mode level corresponding to the failed count. The failsafe mode level may determine the functionality that may be enabled. Users may perform interactive debugging by editing configuration settings and manually enabling functionality.

A system and method for deploying user apps to user devices is disclosed. A service module on a host system maintains class files of the user app within an original archive, and creates an install agent archive and a modified user app archive from the original archive. In some embodiments, the service module deploys an install agent from the install agent archive and a runtime agent of the modified user app archive to the user device. In other embodiments, the install agent and the runtime agent are pre-installed within a virtual machine of the user device. The install agent receives the class files from the service module, and the runtime agent loads and executes the class files to deploy the user app on the user device. In a preferred embodiment, the system enables faster initial deployment and redeployment of user apps on Android user devices than current systems and methods.

The present application provides a method, a processing unit (12), a touch control chip (11), a device, and a medium for processing a configuration file. The method includes: determining (S201) the configuration file of a touch control chip (11); and writing (S202) the configuration file to the touch control chip (11); where the configuration file comprises a plurality of first configuration modules which are respectively used for configuring parameters with different attributes for the touch control chip (11). Thus, the configuration efficiency of the touch control chip (11) is improved.

Techniques for implementing operating system layering are described herein. In one example, a method includes managing one or more container temporary storage spaces and one or more container runtime environments. Furthermore, the method includes loading, one or more drivers to provide compatibility between a container operating system and a host operating system, the one or more drivers comprising application program interface (API) compatibility libraries to enable API compatibility between the container operating system and the host operating system; metadata arbitration logic to enable compatibility between the container operating system and the host operating system by modifying container operating system references; and file arbitration logic to modify operating system file locations accessed by the container operating system and the host operating system.

Method and system are provided for software application execution including switching between optimized code for use profiles. The method includes: accessing an application having multiple executables for the same function for multiple use profiles. The method includes: executing code for a first use profile; receiving a prompt to change to a second use profile; suspending the execution of the code for the first use profile; retrieving switching code from a pre-computed data structure, wherein the switching code is for carrying out operations to transfer from executing code for a first use profile to executing code for a second use profile; performing the operations of the switching code; and resuming executing the application by executing code for the second use profile.