Peer communication between modules in an industrial controller

We claim: 1. An output module for an industrial controller, wherein the industrial controller includes a processor module, at least one output module, and at least one input module, the output module comprising: a plurality of output terminals, wherein each output terminal is configured to be connected to and to transmit an output signal from the output module to a controlled device; a first communication interface between the processor module and the output module; a backplane connector, operative to be connected to a backplane extending between the output module and the input module; a second communication interface between the input module and the output module, wherein the second communication interface is established via the backplane connector and the backplane extending between the input module and the output module; and a processor configured to receive data via the second communication interface and to generate the output signal as a function of the data received from the second communication interface. 2. The output module of claim 1 wherein the processor is further configured to receive data via the first communication interface and to generate the output signal as a function of the data received from both the first communication interface and the second communication interface. 3. The output module of claim 2 wherein the processor is further configured to continue to generate the output signal as a function of the data received from the second communication interface when the data received from the first communication interface indicates the processor module is in a fault state. 4. The output module of claim 2 wherein the processor is further configured to execute in an intermediate fault state and in a final fault state. 5. The output module of claim 4 wherein the processor is further configured to enter the intermediate fault state and to generate the output signal as a function of the data received from the second communication interface when the data received from the first communication interface indicates the processor module is in a fault state. 6. The output module of claim 2 further comprising a memory device in communication with the processor, wherein the memory device is configured to store a logic table identifying how the data from both the first and the second communication interface is used to generate the output signal. 7. An industrial controller having peer communications between at least two modules, the industrial controller comprising: a processor module comprising: a first memory device configured to store a control program; and a first processor in communication with the first memory device and operative to execute the stored control program; an input module comprising: a plurality of input terminals, each input terminal configured to receive an input signal from an input device; and a second processor operative to receive the input signal from each of the plurality of input terminals; an output module comprising: a plurality of output terminals, wherein each output terminal is configured to be connected to and to transmit an output signal from the output module to an output device; a first interface in communication with the processor module and operative to receive control data from the processor module; a second interface in communication with the input module and operative to receive a status of at least one input signal from the input module, wherein the second interface does not pass through the processor module; a third processor configured to generate the output signal for at least one of the plurality of output terminals as a function of the status of the at least one input signal from the input module. 8. The industrial controller of claim 7 wherein the third processor is further configured to generate the output signal for at least one of the plurality of output terminals as a function of the status of the at least one input signal from the input module and of the control data from the processor module. 9. The industrial controller of claim 7 wherein the third processor is further configured to generate at least one output signal as a function of the status from the input module when the third processor module indicates a fault condition is present. 10. The industrial controller of claim 7 wherein the output module is configured to override at least one of the control data and the status of the input signal from the input module. 11. The industrial controller of claim 7 wherein the output module further comprises a third memory device configured to store a configuration table, wherein for each of the output terminals the configuration table includes: an address of the input module to which the second interface is communicating, and a logic table identifying how the status of each input signal is used to generate the output signal for the corresponding output terminal. 12. The industrial controller of claim 11 wherein the logic table is preconfigured and stored in the third memory device. 13. The industrial controller of claim 11 wherein a programmer interface selects a portion of the control program operative to execute in the first processor on the processor module and configures the logic table according to the selected portion. 14. An output module for an industrial controller, wherein the industrial controller includes a processor module, at least one output module, and at least one input module, and wherein the processor module is configured to execute a control program to control operation of an industrial machine or process, the output module comprising: a plurality of output terminals, wherein each output terminal is configured to be connected to and to transmit an output signal to an output device on the industrial machine or process; a first communication interface between the processor module and the output module; a backplane connector, operative to be connected to a backplane extending between the output module and the input module; a second communication interface between the input module and the output module, wherein the second communication interface is established via the backplane connector and the backplane extending between the input module and the output module; and a processor configured to receive data via the second communication interface and to generate the output signal as a function of the data received from the second communication interface, wherein the data from the second communication interface corresponds to an input signal received by the input module from an input device on the industrial machine or process. 15. The output module of claim 14 wherein the processor is further configured to execute at least a portion of the control program in the output module. 16. The output module of claim 15 wherein the data received from the second communication interface is provided as an input to the portion of the control program executing in the output module and the output signals are generated by the control program as a function of the data received from the second communication interface. 17. The output module of claim 16 wherein data received from the first communication interface is provided as an input to the portion of the control program executing in the output module and the output signals are generated by the control program as a function of the data received from both the first and the second communication interfaces. 18. The output module of claim 17 wherein a fault status of the processor module is transmitted from the processor module