A software defined (SD) process control system (SDCS) includes a method executed by a discovery service for inferring information regarding a physical or logical asset of a process plant. The method includes obtaining an announcement indicative of a presence of a physical or logical asset of the process plant. The method also includes obtaining, from a context dictionary, one or more parameters retrievable from the physical or logical asset or one or more services associated with the physical or logical asset that were not indicated in the announcement. Furthermore, the method includes storing a record of the discovered physical or logical asset in a discovered item data store. The record includes an indication of the identity of the physical or logical asset and the one or more parameters or one or more services associated with the physical or logical asset that were not indicated in the announcement.

A software defined distributed control system (SDCS) in a process plant includes an application layer that includes a plurality of containers instantiated in a data cluster. Each of the containers is an isolated execution environment executing within the local operating system of a respective computing node. The containers cooperate to facilitate execution of a control strategy in the SDCS, and includes a hyper converged infrastructure (HCI) operating across the data cluster, which HCI is configured to communicate with the application layer via an adapter service. The HCI includes software-defined (SD) compute resources, SD storage resources, SD networking resources, and an orchestrator service. The orchestrator service is programmed to configure a first container to include a service executing within the first container. It also assigns the first container to execute on an available hardware resource to control a plurality of field devices operating in the process plant.

A process control system includes a plurality of field devices operating to control a process. A communication infrastructure couples the field devices to a software-defined control system (SDCS) that receives data from the field devices and transmits instructions to the field devices. A data cluster, executing the SDCS, includes a plurality of computing nodes, each of which includes a processor executing an operating system, a memory, and a communication resource coupled to one or more other computing nodes in the data cluster. First and second containers, each of which is an isolated execution environment, are instantiated on a first computing node within the operating system of the first computing node. The second container is instantiated within the first container. The first and second containers correspond to levels of a hierarchical structure of the SDCS.

A software defined (SD) process control system (SDCS) includes a control container having contents which are executable during run-time of the process plant to control at least a portion of an industrial process. The SDCS also includes a security service associated with the control container and including contents which define one or more security conditions. The security service executes via a container on a compute node of the SDCS to control access to and/or data flow from the control container based on the contents of the security container.

A method for controlling a field device coupled to an automation network, in which the field device has an associated tool device selected from a group of predetermined tool devices, includes the steps of: coupling the selected tool device to a control device having a physical port device; choosing a virtual link unit from a group of virtual link units included in the control device as a function of the selected tool device, wherein each of the virtual link units corresponds to one of the predetermined tool devices; and establishing a control link between the chosen control device and the selected tool device being associated to the field device via the physical port device using control data included in the chosen virtual link unit.

A control system for controlling operation of a plurality of building control devices includes a pool of virtual controllers that are hosted on one or more computing device and are configured to provide control commands for controlling one or more associate building control devices of the plurality of building control devices. Each of a plurality of edge controllers are associated with at least one building control device and are configured to receive and execute control commands from one or more of the virtual controllers to control the associated one or more building control devices. An orchestrator is configured to monitor one or more operational characteristics of each of the virtual controllers and to modify one or more aspects of the pool of virtual controllers when one or more of the operational characteristics of one or more of the virtual controllers meets predetermined characteristics.

A distributed building management system for controlling a building control device of a building includes a virtual controller that is hosted on a computing device and an edge controller that is associated with the building control device. The virtual controller includes a virtual container or a virtual machine that has control logic that generates control commands for controlling the building control device. The edge controller includes control logic that is configured to at least selectively provide closed loop control of one or more functions of the building control device. The edge controller is in operative communication with the virtual controller and is configured to receive and execute the control commands generated by the virtual controller.

A control system for controlling operation of a plurality of building control devices includes a pool of virtual controllers that are hosted on one or more computing device and are configured to provide control commands for controlling one or more associate building control devices of the plurality of building control devices. Each of a plurality of edge controllers are associated with at least one building control device and are configured to receive and execute control commands from one or more of the virtual controllers to control the associated one or more building control devices. An orchestrator is configured to monitor one or more operational characteristics of each of the virtual controllers and to modify one or more aspects of the pool of virtual controllers when one or more of the operational characteristics of one or more of the virtual controllers meets predetermined characteristics.

A distributed building management system for controlling a building control device of a building includes a virtual controller that is hosted on a computing device and an edge controller that is associated with the building control device. The virtual controller includes a virtual container or a virtual machine that has control logic that generates control commands for controlling the building control device. The edge controller includes control logic that is configured to at least selectively provide closed loop control of one or more functions of the building control device. The edge controller is in operative communication with the virtual controller and is configured to receive and execute the control commands generated by the virtual controller.

A control system for controlling operation of a plurality of building control devices includes a pool of virtual controllers that are hosted on one or more computing device and are configured to provide control commands for controlling one or more associate building control devices of the plurality of building control devices. Each of a plurality of edge controllers are associated with at least one building control device and are configured to receive and execute control commands from one or more of the virtual controllers to control the associated one or more building control devices. An orchestrator is configured to monitor one or more operational characteristics of each of the virtual controllers and to modify one or more aspects of the pool of virtual controllers when one or more of the operational characteristics of one or more of the virtual controllers meets predetermined characteristics.