Object geometry for three-dimensional printers is described in which a first object to be three-dimensionally printed is identified. Geometry data relating to a geometry of all or part of the first object can be obtained. The geometry data can be compared with a predetermined threshold. A determination can be made as to whether the first object may or may not be adversely affected by a post-processing apparatus that will be used to process the object during a post-processing operation based on the comparison.

Module-based systems and methods are described for controlled roll-out of module classes for configuring a process plant. In various aspects the module-based systems and methods generate a second version of a module class based on a modification to a first version of the module class, where the module class is associated with one or more module instances that are each associated with a process control element of the process plant. The module-based systems and methods execute a roll-out instruction to update an upgraded process control element, where the upgraded process control element is associated with a new module instance based on the second version of the module class. The roll-out instruction is also designed to ignore or skip a non-upgraded process control element, where the non-upgraded process control element remains associated with a previous module instance based on the first version of the module class.

Techniques for synchronizing configuration changes in a process plant allow for intelligent and efficient updates to objects and related dependent objects. Additionally, techniques for synchronizing minor configuration changes in a process plant enable real-time updates to objects during run-time. Such techniques reduce the amount of downtime for online operation of the process plant and reduce the amount of information transmitted over the process control network. Each object may correspond to a process entity and dependent objects may be referenced by or may reference the object. In some cases, when an engineer modifies an object, dependent objects with respect to the modified object that have pending modifications are identified and displayed to the engineer. The engineer then selects the dependent objects to sync with the modified object and the dependent objects and modified object are synced and executed by a corresponding device in the run-time system.

Module-based systems and methods are described for controlled roll-out of module classes for configuring a process plant. In various aspects the module-based systems and methods generate a second version of a module class based on a modification to a first version of the module class, where the module class is associated with one or more module instances that are each associated with a process control element of the process plant. The module-based systems and methods execute a roll-out instruction to update an upgraded process control element, where the upgraded process control element is associated with a new module instance based on the second version of the module class. The roll-out instruction is also designed to ignore or skip a non-upgraded process control element, where the non-upgraded process control element remains associated with a previous module instance based on the first version of the module class.

Techniques for synchronizing configuration changes in a process plant allow for intelligent and efficient updates to objects and related dependent objects. Additionally, techniques for synchronizing minor configuration changes in a process plant enable real-time updates to objects during run-time. Such techniques reduce the amount of downtime for online operation of the process plant and reduce the amount of information transmitted over the process control network. Each object may correspond to a process entity and dependent objects may be referenced by or may reference the object. In some cases, when an engineer modifies an object, dependent objects with respect to the modified object that have pending modifications are identified and displayed to the engineer. The engineer then selects the dependent objects to sync with the modified object and the dependent objects and modified object are synced and executed by a corresponding device in the run-time system.