Visualization employing heat maps to convey quality, prognostics, or diagnostics information

What is claimed is: 1. A system for visualizing multi-color industrial displays, comprising: a memory comprising executable components; and a processor, coupled to the memory, that facilitates execution of the executable components, the executable components comprising: a display generation component configured to initiate generation of a first heat map display representing first information relating to a device associated with an industrial automation system and a second heat map display representing second information relating to a component of the device, wherein at least one of the first heat map display or the second heat map display is configured to render prognostic information identifying a potential failure occurrence of the device; and a visualization component configured to modify the first heat map display in response to a first determination that a first subset of data received from the industrial automation system indicates a first change in a first operational state of the device, and modify the second heat map display in response to a second determination that a second subset of the data indicates a second change in a second operational state of the component. 2. The system of claim 1 , wherein the prognostic information further identifies a recommended operator action for addressing the potential failure occurrence. 3. The system of claim 1 , wherein the display generation component is further configured to at least partially overlay a graphical representation of the device over the second heat map display. 4. The system of claim 1 , wherein the display generation component is further configured to initiate a transition between a first presentation of the second heat map display that renders overview information relating to an operational state of the component and a second presentation of the second heat map that renders additional information relating to the operational state of the component. 5. The system of claim 4 , wherein the display generation component is further configured to initiate the transition in response to a determination that the first subset of the data or the second subset of the data indicates the potential failure occurrence of the device. 6. The system of claim 1 , wherein the display generation component is further configured to generate at least one of the first heat map display or the second heat map display based on at least one of source address information, filter information, classifier information, preference information, profile information, design layout information, or rule information. 7. The system of claim 1 , wherein the display generation component is further configured to generate at least one of the first heat map display or the second heat map display based at least in part on historical data collected from the industrial automation system. 8. The system of claim 1 , wherein the visualization component is further configured to animate at least one of the first heat map display or the second heat map display based on real-time or near real-time data collected from the industrial automation system. 9. The system of claim 1 , wherein at least one of the first heat map display or the second heat map display is further configured to render maintenance information identifying a recommended maintenance activity to be performed on the device. 10. An operator interface product, comprising: a display component; and a processor, coupled to a memory, that facilitates execution of executable components stored on the memory to perform operations, the operations comprising: displaying, on a first heat map display, first data relating to a device of an industrial process; displaying, on a second heat map display, second data relating to a component of the device; displaying, on at least one of the first heat map display or the second heat map display, prognostic data indicating a potential failure of the device; altering the first heat map display based on a first determination that the first data indicates a first change in a first operational state of the device; and altering the second heat map display based on a second determination that the second data indicates a second change in a second operational state of the component. 11. The operator interface product of claim 10 , the wherein the operations further comprise displaying at least a portion of a graphical representation of the device as an overlay over the second heat map display. 12. The operator interface product of claim 10 , wherein the operations further comprise transitioning between a first presentation of the second heat map display that renders overview information relating to the operational state of the component and a second presentation of the second heat map that renders other information relating to the operational state of the component. 13. The operator interface product of claim 12 , wherein the transitioning comprises transitioning between the first presentation and the second presentation in response to determining that at least one of the first data or the second data indicates the potential failure of the device. 14. The operator interface product of claim 10 , wherein the operations further comprise configuring a presentation of at least one of the first heat map display or the second heat map display based on at least one of source address information, filter information, classifier information, preference information, profile information, design layout information, rule information, or historical data. 15. The operator interface product of claim 10 , wherein the operations further comprise configuring a presentation of at least one of the first heat map display or the second heat map display based at least in part on historical data collected for the industrial process. 16. The operator interface product of claim 15 , wherein the operations further comprise displaying real-time or near real-time data collected from the industrial process simultaneously with at least a subset of the historical data on the at least one of the first heat map display or the second heat map display. 17. The operator interface product of claim 15 , wherein the operations further comprise modifying the second heat map display based at least in part on a deviation of real-time or near real-time data collected from the industrial process from a corresponding subset of the historical data. 18. A method, comprising: generating, by a system comprising a processor, a first graphical heat map configured to render first data relating to a device associated with an industrial automation system; generating, by the system, a second graphical heat map configured to render second data relating to a component of the device; rendering, by the system on at least one of the first graphical heat map or the second graphical heat map, prognostic information indicating a potential failure of the device; in response to determining that the first data is indicative of a first change in a first operational state of the device, modifying, by the system, the first graphical heat map; and in response to determining that the second data is indicative of a second change to a second operational state of the component, modifying, by the system, the second graphical heat map. 19. The method of claim 18 , further comprising overlaying at least a portion of a representation of the device over the second graphical heat map. 20. The method of claim 18 , further comprising transitioning between a first presentation of the second graphical h