System and method for real-time computation and reporting of welding machine performance and metrics

What is claimed is: 1. A welding or cutting power supply, comprising: a housing; a power conversion module located within the housing which receives an input signal having a first voltage, first current and first power and converts said input signal into an output signal having a second voltage, second current and second power which are each different from said respective first voltage, current and powers, and said power conversion module provides said output signal to a load; a performance monitoring module located within the housing and electrically coupled to said power conversion module which receives a reference signal from said input signal and a reference signal from said output signal during operation of said power conversion module and determines a real-time efficiency of said power conversion module by comparing said first power to said second power during an operation of said power conversion module; and at least one of a user interface and a data connection device coupled to said housing to provide said determined real-time efficiency to a user. 2. The power supply of claim 1 , wherein said power conversion module comprises a DC conversion stage which receives said input signal and modifies said input signal to provide a DC voltage signal before said power conversion module outputs said output signal, and where said DC conversion stage performs power factor correction on said input signal during said operation of said power conversion module, and wherein said performance monitoring module utilizes at least said input reference signal to determine a real-time power factor ratio of said DC conversion stage and said real-time power factor ratio is provided to at least one of said user interface and said data connection device to provide said real-time power factor ratio to said user. 3. The power supply of claim 2 , wherein said performance monitoring module determines at least one of a maximum, minimum and average power factor ratio for said operation. 4. The power supply of claim 2 , wherein said determined real-time efficiency, said determined real-time power factor ratio and a cost of said operation is provided to at least one of said user interface and said data connection device to be monitored by said user during said operation. 5. The power supply of claim 1 , wherein said performance monitoring module determines at least one of a total, maximum and average amount of said first power utilized during said operation of said power conversion module. 6. The power supply of claim 1 , wherein said user interface displays said real-time efficiency for a duration of said operation. 7. The power supply of claim 1 , further comprising a data storage device coupled to said performance monitoring module which receives said determined real-time efficiency and records said real-time efficiency for said operation. 8. The power supply of claim 1 , wherein said performance monitoring module uses at least one of said input reference signal and said output reference signal to determine a cost of said operation, wherein said cost of said operation includes at least one of a cost of said first power and a cost of a consumable used in said operation. 9. The power supply of claim 8 , wherein said cost of said operation is provided to at least one of said user interface and said data connection device. 10. The power supply of claim of claim 8 , wherein said cost of said operation is a total cost of operation of said power conversion module over a determined period of time. 11. The power supply of claim 1 , wherein said output signal is a signal that is suitable for welding or cutting processes. 12. A welding or cutting power supply, comprising: a housing; a DC conversion stage located within the housing which receives an input signal having a first voltage, first current and first power and converts said input signal into a DC output signal having a fixed DC voltage, where said DC conversion stage performs a power factor correction function on said input signal; an output stage which receives said DC output signal and outputs an output signal having an output voltage, output current and output power which are each different from said respective first voltage, current and powers, and said output signal is provided to a load; a performance monitoring module located within the housing and electrically coupled to said DC conversion stage which receives a reference signal from said input signal and determines a real-time power factor ratio of said DC conversion stage during an operation of said DC conversion stage; and at least one of a user interface and a data connection device coupled to said housing to provide said determined real-time power factor ratio to a user. 13. The power supply of claim 12 , wherein said performance monitoring module determines a real-time efficiency during said operation by comparing said first power to said output power and said real-time efficiency is provided to at least one of said user interface and said data connection device. 14. The power supply of claim 13 , wherein said determined real-time efficiency, said determined real-time power factor ratio and a cost of said operation is provided to at least one of said user interface and said data connection device. 15. The power supply of claim 12 , wherein said performance monitoring module determines at least one of a total, maximum and average amount of said first power utilized for said operation. 16. The power supply of claim 12 , wherein said user display displays said real-time power factor ratio for a duration of said operation. 17. The power supply of claim 12 , wherein said performance monitoring module determines at least one of a maximum, minimum and average power factor ratio for said operation. 18. The power supply of claim 12 , further comprising a data storage device coupled to said performance monitoring module which receives said determined real-time power factor ratio and records said real-time power factor ratio for said operation. 19. The power supply of claim 12 , wherein said performance monitoring module uses at least one of said input power and said output power to determine a cost of said operation, wherein said cost of said operation includes at least one of a cost of said first power and a cost of a consumable used in said operation. 20. The power supply of claim 19 , wherein said cost of said operation is provided to at least one of said user interface and said data connection device. 21. The power supply of claim of claim 19 , wherein said cost of said operation is a total cost of operation of said power supply over a determined period of time. 22. The power supply of claim 12 , wherein said output signal is a signal that is suitable for welding or cutting processes.