Automated gas cutting system with auxiliary torch

What is claimed is: 1. An automated plasma cutting system comprising: an automated plasma arc torch mounted to a positioning system; a power supply operatively connected to the automated plasma arc torch; a controller in communication with the automated plasma arc torch and the power supply for operation of the positioning system and automatic control of the automated plasma arc torch; and an auxiliary plasma arc torch operatively connected to the power supply, wherein the power supply is configured to simultaneously provide electrical power and fluid flow to both the automated plasma arc torch and the auxiliary plasma arc torch, and wherein the auxiliary plasma arc torch is configured for manual operation by a user of the plasma cutting system. 2. The automated plasma cutting system according to claim 1 , wherein the power supply includes a quick-disconnect fitting for attachment of the auxiliary plasma arc torch. 3. The automated plasma cutting system according to claim 1 , wherein the auxiliary plasma arc torch is operated in a rapid reattach mode in the case that the power supply is operatively connected to the automated plasma arc torch and the auxiliary plasma arc torch. 4. The automated plasma cutting system according to claim 1 , wherein the auxiliary plasma arc torch is inoperable unless a parts-in-place (PIP) system is activate for both the automated plasma arc torch and the auxiliary plasma arc torch. 5. The automated plasma cutting system according to claim 1 , wherein the auxiliary plasma arc torch is operable with a single gas source, the single gas source providing a plasma flow and a shield gas flow to the auxiliary plasma arc torch. 6. The automated plasma cutting system according to claim 5 further comprising a gas pressure regulator in communication with the single gas source. 7. The automated plasma cutting system according to claim 5 , wherein the power supply controls the shield gas flow using one of: an electromechanical solenoid, and a proportional valve. 8. The automated plasma cutting system according to claim 1 , wherein the power supply includes at least one indicator of a fault condition. 9. The automated plasma cutting system according to claim 8 , wherein operation of the auxiliary plasma arc torch is rendered inoperable by the controller upon recognition of the fault condition. 10. The automated plasma cutting system according to claim 1 , wherein the auxiliary plasma arc torch is a dual mode torch operable in either a high frequency mode or a contact start mode. 11. The automated plasma cutting system according to claim 1 , further comprising a plurality of automated plasma arc torches. 12. The automated plasma cutting system according to claim 8 , wherein the controller includes a fault interlock configured to prevent the automated plasma arc torch from operating within a predetermined proximity of the auxiliary plasma arc torch. 13. A plasma system comprising: a support for receiving a work piece; a positioning system mounted to the support; an automated plasma arc torch mounted to the positioning system; a power supply operatively connected to the automated plasma arc torch; a controller in communication with the automated plasma arc torch and the power supply for operation of the positioning system and automatic control of the automated plasma arc torch; and an auxiliary plasma arc torch operatively connected to the power supply, wherein the power supply is configured to simultaneously provide electrical power and fluid flow to both the automated plasma arc torch and the auxiliary plasma arc torch, and wherein the auxiliary plasma arc torch is configured for manual operation by a user of the plasma system. 14. The plasma system of claim 13 , wherein the power supply is operatively connected to both the automated plasma arc torch and the auxiliary plasma arc torch. 15. The plasma system of claim 13 , further comprising a single gas source operable with the auxiliary plasma arc torch, wherein the single gas source provides a plasma flow and a gas flow to the auxiliary plasma arc torch and the automated plasma arc torch. 16. The plasma system of claim 13 , wherein the controller includes a fault interlock configured to prevent the automated plasma arc torch from operating within a predetermined proximity of the auxiliary plasma arc torch. 17. A method comprising: providing electrical power and fluid flow from a power supply to an automated plasma arc torch; processing a workpiece using the automated plasma arc torch, wherein the automated plasma arc torch is automatically controlled by a controller to process a set of features of the workpiece and to generate a residual framework of the workpiece; and providing electrical power and fluid flow from the power supply to the automated plasma arc torch while simultaneously providing electrical power and fluid flow from the power supply to an auxiliary plasma arc torch to process the residual framework, wherein the auxiliary plasma arc torch is configured for manual operation by a user. 18. The method according to claim 17 , further comprising processing the residual framework utilizing the auxiliary plasma arc torch after the automated plasma arc torch has completed processing the set of features of the workpiece. 19. The method according to claim 17 , further comprising operating the auxiliary plasma arc torch in a rapid reattach mode by reattaching a pilot arc before a transferred arc extinguishes. 20. The method according to claim 17 , wherein the controller includes a fault interlock that prevents the automated plasma arc torch from operating within a predetermined proximity of the auxiliary plasma arc torch.