Self-descriptive orchestratable modules in software-defined industrial systems

What is claimed is: 1. An apparatus, comprising processing circuitry adapted to: identify operational aspects of available software modules, the available software modules adapted to perform functional operations in a control system environment; identify operational characteristics from a module manifest, wherein the operational characteristics define an environment for the available software modules to perform a control system application; select a software module of the available software modules, based on the identified operational aspects of the available software modules and the identified operational characteristics from the module manifest; and cause execution of the selected software module in the control system environment, wherein the execution occurs according to an application specification for the control system application, wherein the application specification defines values for control parameters of the selected software module, wherein the apparatus is an orchestration device, wherein the orchestration device is operably coupled to a plurality of execution devices in the control system environment that execute software modules, and wherein the execution of the selected software module via at least one execution devices effects functional operation of one or more control devices in the control system environment, and wherein the processing circuitry is further adapted to coordinate the execution of the selected software module with an orchestration control strategy within the control system environment. 2. The apparatus of claim 1 , wherein the operational aspects of the available software modules relate to one or more of: communication interfaces, starting parameters, platform requirements, dependencies, deployment requirements, or a signature. 3. The apparatus of claim 1 , the processing circuitry further adapted to: generate the application specification for the control system application, based on the operational characteristics, and the selected software module. 4. The apparatus of claim 3 , wherein the application specification indicates a connection from the selected software module to a second selected software module. 5. The apparatus of claim 1 , the processing circuitry further adapted to: evaluate the execution of the selected software module in the control system environment using at least two different hardware architectures; and perform an efficiency measurement of operations executed with the at least two different hardware architectures. 6. The apparatus of claim 1 , wherein the control system application and respective software modules are displayed as a visual representation in a graphical user interface, wherein the visual representation is used to establish relationships of one or more inputs or outputs of the software modules within the control system application, wherein the inputs or outputs to the software modules include use of one or more of: a sensor, an actuator, or a controller. 7. The apparatus of claim 1 , wherein the processing circuitry is further adapted to: select a plurality of software modules, the plurality of software modules including a selection of the software module; and connect the plurality of software modules to each other according to the operational characteristics. 8. A method performed by an orchestration device, comprising: identifying operational aspects of available software modules, the available software modules adapted to perform functional operations in a control system environment; identifying operational characteristics from a module manifest, wherein the operational characteristics define an environment for the available software modules to perform a control system application; selecting a software module of the available software modules, based on the identified operational aspects of the available software modules and the identified operational characteristics from the module manifest; and causing execution of the selected software module in the control system environment, wherein the execution occurs according to an application specification for the control system application, wherein the application specification defines values for control parameters of the selected software module, wherein the orchestration device is operably coupled to a plurality of execution devices in the control system environment that execute software modules, and wherein the execution of the selected software module via at least one execution devices effects functional operation of one or more control devices in the control system environment, and wherein the method further comprises coordinating the execution of the selected software module with an orchestration control strategy within the control system environment. 9. The method of claim 8 , wherein the operational aspects of the available software modules relate to one or more of: communication interfaces, starting parameters, platform requirements, dependencies, deployment requirements, or a signature. 10. The method of claim 8 , further comprising: generating the application specification for the control system application, based on the operational characteristics, and the selected software module; wherein the application specification indicates a connection from the selected software module to a second selected software module. 11. The method of claim 8 , further comprising: evaluating the execution of the selected software module in the control system environment using at least two different hardware architectures; and identifying an efficiency measurement of operations executed with the at least two different hardware architectures. 12. The method of claim 8 , wherein the control system application and respective software modules are displayed as a visual representation in a graphical user interface, wherein the visual representation is used to establish relationships of one or more inputs or outputs of the software modules within the control system application, wherein the inputs or outputs to the software modules include use of one or more of: a sensor, an actuator, or a controller. 13. The method of claim 8 , further comprising: selecting a plurality of software modules for use in the control system environment, the plurality of software modules including the selection of the software module; and connecting the plurality of software modules to each other according to the operational characteristics. 14. At least one non-transitory machine-readable storage medium including instructions, wherein the instructions, when executed by a processing circuitry of a device, cause the processing circuitry to perform operations comprising: identifying operational aspects of available software modules, the available software modules adapted to perform functional operations in a control system environment; identifying operational characteristics from a module manifest, wherein the operational characteristics define an environment for the available software modules to perform a control system application; selecting a software module of the available software modules, based on the identified operational aspects of the available software modules and the identified operational characteristics from the module manifest; and causing execution of the selected software module in the control system environment, wherein the execution occurs according to an application specification for the control system application, wherein the application specification defines values for control parameters of the selected software module, wherein the operations are performed by an orchestration device, wherein the orchestration device