Dual mass flywheel protection by software

What is claimed is: 1. A dual mass flywheel protection system, comprising: an engine coupled to a transmission using a dual mass flywheel, together defining a drive train; a gear determiner identifying a present operational gear of the transmission; a filtered engine speed of the engine; a torque reducer applying as input the present operational gear and the filtered engine speed to produce signals to limit an engine torque to reduce or eliminate variations of the engine torque; a first torque limitation option from the torque reducer limiting the engine torque when the drivetrain is coupled dependent on an engine rpm which is related to an actual gear selected; and a second torque limitation option from the torque reducer determines an engine torque reduction during an emergency braking maneuver while an anti-lock brake (ABS) system is active. 2. The dual mass flywheel protection system of claim 1 , wherein a starting point for limiting the engine torque is a last entry in an engine rpm calibration table. 3. The dual mass flywheel protection system of claim 2 , wherein the first torque reduction option is only active when the drivetrain is coupled and is dependent on the engine rpm which is related to an actual gear selected. 4. The dual mass flywheel protection system of claim 1 , wherein the first torque limitation option is available when the engine is running with the drive train coupled. 5. The dual mass flywheel protection system of claim 1 , wherein the second torque limitation option is available when the ABS system is active, with the engine running and the drive train coupled. 6. The dual mass flywheel protection system of claim 5 , wherein a torque reduction occurs using the second torque limitation option due to engine rpm reduction as long as the ABS system is active. 7. The dual mass flywheel protection system of claim 1 , further including an event counter, wherein an output signal generated by an occurrence of one of the first and the second torque limitation options of the torque reducer forwarded to the event counter. 8. The dual mass flywheel protection system of claim 7 , wherein the event counter counts an occurrence as an output signal from any of the first and the second torque limitation options output from the of the torque reducer and produces a single increment per option signal, each increment saved to an event counter. 9. The dual mass flywheel protection system of claim 1 , further including: an arbitration device, wherein an output signal generated by an occurrence of one of the first and the second torque limitation options of the torque reducer is forwarded to the arbitration device; and an event counter counting each occurrence of one of the first and the second torque limitation options and producing a single increment per limitation counted; wherein the arbitration device issues an engine shut-off request signal. 10. The dual mass flywheel protection system of claim 1 , further including a gradient limitation device, wherein an output signal generated by an occurrence of one of the first and the second torque limitation options of the torque reducer is forwarded to the gradient limitation device, the gradient limitation device calculating a final torque request based on a current gear state to identify a torque limitation value, and issuing a torque limitation request.