A modular image processing SDK comprises an API to receive API calls from third party software running on a portable device including a camera. SDK logic receives and processes commands and parameters received from the API that are based on the API calls received from the third party software. An annotation system performs image processing operations on a feed from the camera based on image processing instructions and parameters received by the annotation system from the SDK logic. The image processing is based at least in part on augmented reality content generator data (or AR content generators), user input and sensor data.

An HTML file transmitted to a client device is configured to call JavaScript code, where the JavaScript code is configured to call a requestAnimationFrame browser application programming interface (API) with an argument identifying a callback function. The callback function is configurable to cause the web browser to: 1) reset a first Cascading Style Sheets (CSS) animation of a first DOM element, the first CSS animation being configured to cause the first DOM element to transition from a hidden state to a visible state during a first time duration specified by a first animation-duration property of the first element using a specific set of CSS properties; and 2) call the requestAnimationFrame browser API with the argument identifying the callback function. Thus, the first DOM element remains hidden as long as the browser performs frame refreshes at an optimal rate. However, when the browser's main thread is busy, the first DOM element transitions to a visible state.

Examples described herein relate to a configuration manager for configuring a cloud application at a SaaS platform. The configuration manager is hosted on a cloud platform separate from a tenant site. The configuration manager receives a request for enabling remote management of the cloud application hosted on the tenant site. The configuration manager determines configuration content applicable for the cloud application from a configuration repository and configures the SaaS platform for remotely managing the cloud application based on the configuration content. The SaaS platform is a service associated with a management tooling used at the tenant site. The management tooling may be a monitoring tooling or a logging tooling. Once configured, the SaaS platform receives monitoring data or logging data from the infrastructure at the tenant site.

Disclosed are mechanisms for sharing content through content consumption systems. A sharing module publishes content in a share and metadata associated therewith to a content consumption system external to a managed repository. The share represents a folder or directory in the managed repository. The publication can be made through application programming interface (API) calls handled by a first sharing module API, a repository API, a second sharing module API, and a content consumption system API. These APIs together provide a one-to-one mapping of communications protocols used by the managed repository and the external system. The share in the managed repository and the share published to the content consumption system are synced and any conflict between the two is detected and resolved. The shared content can be repatriated back to the managed repository and the shared version deleted from the content consumption system.

The disclosed technology is generally directed to network security for processors. In one example of the technology, a computing device includes: a processor, a memory, and a network interface. The computing device executes a first binary within a first region of the memory, executes a separate second binary within a second region of the memory, and prevents the second binary from accessing the first region of the memory. The first binary implements a kernel configured to control the network interface, while the separate second binary implements a network stack that is restricted to communicate only with an identified set of trusted servers.

Systems and methods are described for tailoring shareable content object reference model (SCORM)-compliant content to one or more users. A learning management system (LMS), configured to be SCORM-compliant, initiates shareable content object (SCO) to provide content to users. The LMS implements an instance of application programming interface (API) comprising a plurality of functions to be called by SCO during runtime to access data model elements accessible via LMS. The LMS is configured to support one or more data model elements undefined by SCORM. Further, LMS receives a call to a function of the plurality of functions of the API from SCO to access information about users. The call references a name of a data model element undefined by SCORM. The data model element identifies information about users. The LMS provides information about the users to SCO and the SCO tailors the content to the users based on the information.

A mechanism is described for facilitating efficient communication and data processing across clusters of computing machines in a heterogenous computing environment. A method includes detecting a request for processing of data using a programming framework and a programming model; facilitating interfacing between the programming framework and the programming model, wherein interfacing includes merging the programming model into the programming framework, wherein interfacing further includes integrating the programming framework with a distribution framework hosting the programming model; and calling on the distribution framework to schedule processing of a plurality of jobs based on the request.

A method and system. Application programming interface (API) call data is analyzed for a user to identify a relationship between API input data and API output data of two or more API calls. API usage information is generated by utilizing a dependency between the two or more API calls. The API usage information includes information pertaining to how data flows between the two or more API calls. API provision is improved with respect to execution of a process, based on utilization of the API usage information. Improving API provision includes: receiving a specification of an improvement to be achieved for the process, selecting at least two APIs from the two or more APIs for achieving the improvement, generating a new API that combines the at least two APIs, and modifying the process by including the new API in the process and removing the at least two APIs from the process.

Methods, systems, computer-readable media, and apparatuses for determining partitions and virtual processes in a simulation are presented. A plurality of partitions of a simulated world may be determined, and each partition may correspond to a different metric for entities in the simulated world. A plurality of virtual processes for the simulated world may also be determined. The system may assign a different virtual process to each partition. An indication of the partitions may be sent to one or more partition enforcer services, and an indication of the virtual processes may be sent to a virtual process manager.

Disclosed herein an application-based data transport device and method. The application-based data transport device includes: an application processing unit configured to generate application data for executing an application; a transport service processing unit configured to identify, in the application data, transport service information including at least one of network connection information, network performance information or combination thereof, which are required to execute the application, and to set a network environment based on the transport service information; and a transport processing unit configured to generate and transmit transport protocol data for transmitting the application data, based on the network environment and a transport protocol.