Programming template for distributed application programs

What is claimed is: 1. A programming template for developing an application program comprising: a plurality of programmable modules configured to be integrated into the application program and executed on a respective associated programmable logic controller of a plurality of programmable logic controllers, at least one first programmable module being associated with a first programmable logic controller of the plurality of programmable logic controllers, and at least one second programmable module being associated with a second programmable logic controller of the plurality of programmable logic controllers; and a logical communication link between the plurality of programmable modules configured to coordinate the plurality of programmable modules across control systems, the logical communication link including a master module and a slave module, wherein the master module is configured to operate on the first programmable logic controller of the plurality of programmable logic controllers, wherein the slave module is configured to operate on the second programmable logic controller of the plurality of programmable logic controllers, wherein during initialization of the application program developed using the programming template, the programming template prompts the second programmable logic controller with the slave module and the at least one second programmable module to transmit initialization data to the master module, and prompts the first programmable logic controller to follow the transmission of the initialization data by putting the first programmable logic controller and the second programmable logic controller and the associated programmable modules thereof into the operating state through initialization states, wherein the plurality of programmable logic controllers are connected to one another by a communication network, and wherein the application program is configured to be executed in a manner distributed over the plurality of programmable logic controllers. 2. The programming template according to claim 1 , wherein while operating on the first programmable logic controller, the master module is configured to at least one of (i) communicate with the slave module and to manage the at least one second programmable module, and (ii) communicate with the at least one first programmable module and to detect one or more properties of the first programmable module. 3. The programming template according to claim 1 , wherein the slave module is configured (i) to supervise the at least one second programmable module, (ii) to detect a status of the at least one second programmable module, and (iii) to communicate the status to the master module. 4. The programming template according to claim 1 , wherein: at least two programmable modules of the plurality of programmable modules are associated with the second programmable logic controller, and the slave module is configured (i) to detect a respective status of each programmable module of the at least two programmable modules, (ii) to combine the respective statuses to form a joint actual state, and (iii) to communicate the joint actual state to the master module. 5. The programming template according to claim 1 , wherein: at least one third programmable module of the plurality of programmable modules is associated with a third programmable logic controller of the plurality of programmable logic controllers, the logical communication link is configured to connect the at least one third programmable module to at least one of (i) the at least one first programmable module, and (ii) the at least one second programmable module, the logical communication link includes a connection between the slave module and a further slave module, and the further slave module is configured to operate on the third programmable logic controller. 6. The programming template according to claim 5 , wherein: the slave module is configured (i) to communicate with the further slave module, (ii) to manage the at least one third programmable module, (iii) to communicate with the at least one second programmable module, and (iv) to detect at least one property of the at least one second programmable module, and the at least one property includes a status of the at least one second programmable module. 7. The programming template according to claim 1 , wherein: the slave module includes a function configured to report a local error on the second programmable logic controller to the master module in the event of the local error, and the function is selectable by a user. 8. The programming template according to claim 1 , wherein: the master module is configured (i) to detect termination of a connection to the slave module, and (ii) to react to the detected termination of the connection to the slave module by slowing down a control drive, changing over to a local state machine, or ignoring the detected termination of the connection to the slave module, and the slave module is configured (i) to detect termination of a connection to the master module, and (ii) to react to the detected termination of the connection to the master module by slowing down the control drive, changing over to the local state machine, or ignoring the termination of the connection to the master module. 9. The programming template according to claim 1 , wherein each programmable logic controller of the plurality of programmable logic controllers is implemented on a piece of dedicated or autarkic control hardware. 10. The programming template according to claim 1 , wherein during creation, deletion, or renaming of a state or of a mode of operation of one or more of the programmable modules of the plurality of programmable modules, the programming template is configured to automatically customize respective associated data structures in one or more other of the plurality of programmable modules. 11. The programming template according to claim 1 , further comprising: an assistance interface including a plurality of input panels, the assistance interface being configured to be used (i) to add one or more of the programmable modules and/or a mode-of-operation manager to the programming template, (ii) to delete the one or more of the programmable modules and/or the mode-of-operation manager from the programming template, and (iii) to rename the one or more of the programmable modules and/or the mode-of-operation manager, wherein the assistance interface is further configured (i) to associate the one or more of the programmable modules with a respective programmable logic controller, and/or (ii) to change an association between the one or more of the programmable modules and the respective programmable logic controller, and wherein the programming template is provided for a user via the assistance interface. 12. The programming template according to claim 1 , wherein a computer program includes a program code configured (i) to be compiled on a corresponding computation unit, and (ii) to prompt the corresponding computation unit to generate the programming template. 13. The programming template according to claim 12 , wherein the computer program is stored on a machine-readable storage medium.