An information handling system may include a processor and a basic input/output system (BIOS) embodied as executable instructions in non-transitory computer-readable media communicatively coupled to the processor and configured to, when read and executed by the processor, during a Driver Execution Environment of the BIOS, collect an inventory of hardware of the information handling system, generate a configuration-based performance profile based on the inventory and empirical data related to the inventory, present to a user of the information handling system, during a setup utility of the BIOS, a performance workload table setting forth a plurality of performance profiles including the configuration-based performance profile, and in response to the user selecting a performance profile from the plurality of performance profiles, apply the performance profile to a remainder of execution of the BIOS.

A computer system (10) for providing virtual computers includes a pool facility (38) for storing a pool (40) of suspended virtual computers (42) based on at least one virtual computer template (44). A provision manager (32) provides a series (46) of virtual computers (18) as a result of a series (50) of system logon requests by a user (54). The provision manager (32) includes an update facility (100), a resume facility (102) and a customization facility (104). The update facility (104) is provided for updating one or each at least one virtual computer template (44). The resume facility (102) is provided for resuming virtual computers from the pool (40) of suspended virtual computers (42) provided by the pool facility (38). The customization facility (104) is provided for customizing virtual computers after being resumed from the pool (40) to provide active virtual computers.

Aspects of the disclosure relate generally to effortlessly switching between user accounts. For example, a user may access an application on their computing device. Within the application the user may have multiple user accounts. The application may display a plurality of indicators that signify each user account associated with that application. In this regard, the user may perform a swiping or tapping motion to select a particular user account to switch to. A transitional stage may take place that changes a first background and details associated with a first user account to a second background and details associated with a second user account. When the transition is complete, the user is able to access and perform functions associated with the second user account. The user may switch to another user account using a similar swiping or tapping motion.

The present disclosure describes methods and systems directed towards identifying player engagement to generate contextual game play assistance. User gameplay information is monitored so that the user can be provided assistance within the video game where the user may have problems. User gameplay information is monitored in order to identify what type(s) of assistance could be provided to the user. The information can be based on the current level of frustration of the user with the video game.

In one embodiment, a method includes receiving an initial input in a first modality from a first user from a client system associated with the first user, determining one or more intents corresponding to the initial input by an intent-understanding module, generating one or more candidate continuation-inputs based on the one or more intents, where the one or more candidate continuation-inputs are in one or more candidate modalities, respectively, and wherein the candidate modalities are different from the first modality, and sending instructions for presenting one or more suggested inputs corresponding to one or more of the candidate continuation-inputs to the client system.

Generating a user interface template is provided. A user context corresponding to an action request by a user to perform a task on a computer is determined. A set of user interface templates corresponding to the action request by the user and the user context is retrieved. Components of different user interface templates within the set of user interface templates are compared. Relevant components of the different user interface templates are combined based on the action request by the user and the user context. The user interface template corresponding to the action request by the user and the user context is generated based on the combined relevant components of the different user interface templates.

Methods and electronic devices are provided. Account access information is received, at an electronic device, from an external electronic device. The account access information is transmitted to a server. Account-related information about the external electronic device is received from the server. An account of the external electronic device is logged into based on the account-related information. A configuration of the electronic device is changed while logged into the account of the external electronic device.

A device context of a device is identified based on device data including a current state of the device, and a user context of a user is identified based on user data including user interaction with a user interface for the device. A current task that the user is performing on the device in relation to the current state of the device is identified, and knowledge regarding how the user is performing the current task using the user interface is extracted, using an artificial intelligence technique with respect to the identified device context and the identified user context. The extracted knowledge for the identified current task is stored within a knowledge base, and can be used to adapt the user interface for another user performing the current task on the device in the current state.

A cross-platform deployment computing system receives an application to be deployed to a cloud. The application is parsed to identify assignment criteria and is assigned to an application availability group the defines security that defines a topology in which the application will be deployed. The application is then provided to a control plane for deployment at a target remote server architecture. In order to deploy the application to a different remote server architecture, the control plane for the different remote server architecture accesses the deployment definitions in the AAG and deploys the application to the different remote server architecture using the deployment definitions in the AAG to which the application is assigned.

In some examples, a method includes receiving a personalization setting from a first agent on a first device. In some examples, the first device provides a local operating environment. In some examples, the method includes sending the personalization setting to a second agent on a second device that provides a virtualized operating environment, to coordinate a behavior or appearance of the virtualized operating environment with a personalized behavior or appearance of the local operating environment.