A system on chip includes a non-volatile memory and a processor configured to execute an operating system which receives data according to a first communication protocol and program installation software that communicates with the non-volatile memory according to a second communication protocol. The operating system functions to: determine whether data received according to the first communication protocol is program data, make the program data available to the installation software, and inform the installation software that program data has been received. The installation software then stores the program data in the non-volatile memory.

A program identification method is for identifying an application program that is stored in a terminal device coupled to a robot system and that is used for teaching work on an operation of a robot provided in the robot system. The method includes: acquiring program information corresponding to the application program from the terminal device; and comparing the program information with first information stored in the robot system and thus identifying whether the application program is a first application program corresponding to the first information or not.

A program identification method is for identifying an application program that is stored in a terminal device coupled to a robot system and that is used for teaching work on an operation of a robot provided in the robot system. The method includes: acquiring program information corresponding to the application program from the terminal device; and comparing the program information with first information stored in the robot system and thus identifying whether the application program is a first application program corresponding to the first information or not.

A processor may receive a composable deployer comma-separated values (CSV) file. The processor may parse the composable deployer CSV file. The processor may determine if there is a composable deployer foundation template. The processor may install a resource. The resource to install may be associated with the composable deployer foundation template.

A processor may receive a composable deployer comma-separated values (CSV) file. The processor may parse the composable deployer CSV file. The processor may determine if there is a composable deployer foundation template. The processor may install a resource. The resource to install may be associated with the composable deployer foundation template.

A recovery workflow is part of an automated management service for bare metal hosts allocated for single-tenant operation in a multi-tenant environment. The health of the hosts is monitored using a set of health criteria. If it is detected that one of the host machines fails a health check then a host recovery workflow can be initiated. As part of the workflow, the failed host can be repurposed or retired. A spare host class can be used to obtain a new host to take over for the failed host. Once deployed, the operation of the new host can be tested. Upon passing the test, the new host can take over for the failed host. A new host resource can be automatically requested to be added to the spare host class in order to ensure that there are sufficient resources available in case of an additional failure.

An application configuration tool and associated method for supporting deployment of an application on a server that has a set of configurations available for applications deployed on the server. The method attempts to match every configuration required by the application to a configuration available on the server. In case of multiple candidates that match, one is selected. When there is no match an error message is generated. The method is iterated to inspect each selected configuration to identify any references contained in the selected configuration that themselves need further configurations. The iteration of inspecting and the matching to follow the references is continued until all such references are exhausted either by matching or failure to match and consequent error message generation. Finally, a configuration report is output specifying the selected configurations and, to the extent that not all required configurations have been matched to available configurations, the error messages.

An application configuration tool and associated method for supporting deployment of an application on a server that has a set of configurations available for applications deployed on the server. The method attempts to match every configuration required by the application to a configuration available on the server. In case of multiple candidates that match, one is selected. When there is no match an error message is generated. The method is iterated to inspect each selected configuration to identify any references contained in the selected configuration that themselves need further configurations. The iteration of inspecting and the matching to follow the references is continued until all such references are exhausted either by matching or failure to match and consequent error message generation. Finally, a configuration report is output specifying the selected configurations and, to the extent that not all required configurations have been matched to available configurations, the error messages.

A system can receive information about a first orchestration service that indicates a mapping from an application programming interface (API) to an executable script, and a dependency of the first orchestration service on a second orchestration service. The system can, in response to receiving the information, creating a base container image for the first orchestration service. The system can associate the API with executing the executable script on the base container image. The system can associate the dependency of the first orchestration service on the second orchestration service with the base container image. The system can, in response to receiving data indicative of a request to create an instance of the first orchestration service, creating an instance of the base container image.

Smart sensors, platforms for smart sensors, and associated systems and methods, are disclosed herein. In some implementations, the platform includes hardware interfaces that are abstracted and/or standardized as defined by various common group types. The abstracted interfaces allow numerous different sensors to be connected and integrated into the smart sensor as desired for a specific application. Further, the platform can reuse a standardized software backbone as a sensor platform as sensors are varied, as well as across multiple smart sensors. In some implementations, the standardized sensor platform can include an on-board resident user interface (RUI) with an internet-accessible portal, allowing users to connect to the RUI on the sensor platform through any network accessible device. The platform can also include an artificial intelligence and/or machine learning engine to turn raw sensor data into real-time automation and inspection information within the sensor within the local environment.