TIG welding system

What is claimed is: 1. A TIG welding system comprising: a power source having a controller in communication therewith, the controller having a memory storing at least one waveform; and a welding torch including a non-consumable electrode electrically connected to the controller, wherein the controller is configured to receive an arc initiation input comprising: an electrode color, and an electrode diameter, wherein the controller is programmed to choose a selected waveform from the at least one waveform based on the arc initiation input and apply power from the power source to the non-consumable electrode according to the selected waveform, wherein the selected waveform includes an arc initiation stage and a sequencing stage, wherein during the arc initiation stage, the controller prevents user control of energy to the non-consumable electrode, and controls at least two parameters of an arc initiation current, an arc strike time, and an arc slope time, and wherein upon attaining a steady state, the controller transfers control of an arc current or voltage to a user, wherein during the arc initiation stage, the selected waveform includes a transition from the arc initiation current to a start current of the sequencing stage, wherein during the sequencing stage, the selected waveform transitions from the start current to a welding amperage, and wherein the arc initiation stage includes plural pulses, and wherein the transition includes plural pulses, each having a pulse height, wherein the pulse height of each is progressively reduced until reaching the start current. 2. The TIG welding system of claim 1 , wherein the selected waveform includes the start current being greater than 2 amps and less than the welding amperage to provide early delivery of power to a weld pool. 3. The TIG welding system of claim 2 , wherein the controller transfers control of the arc current or voltage to the user during the sequencing stage. 4. The TIG welding system of claim 3 wherein within the sequencing stage, the selected waveform further includes a tail down portion, where control of the arc current or voltage is transferred from the user to the controller, and the controller is configured to prevent user control of the arc current or voltage during the tail down portion, and wherein during the tail down portion, the selected waveform reduces the arc current to a selected low value. 5. The TIG welding system of claim 4 , wherein the selected low value is less than two amps. 6. The TIG welding system of claim 1 , wherein the selected waveform includes a pulse height parameter, and a pulse duration parameter. 7. The TIG welding system of claim 6 , wherein the selected waveform further includes a positive to negative pulse ratio. 8. The TIG welding system of claim 7 , wherein the positive to negative pulse ratio is less than 1. 9. The TIG welding system of claim 1 further comprising a sensor adapted to detect the electrode diameter, the sensor being in communication with the controller; wherein the controller determines whether the electrode diameter and the electrode color are compatible before applying power to the electrode. 10. The TIG welding system of claim 1 , wherein the electrode color input is discrete and associated with at least one of the arc initiation current, the arc strike time and the arc slope time. 11. The TIG welding system of claim 1 , wherein the start current is not equal to the welding amperage. 12. The TIG welding system of claim 11 wherein: the controller is further configured to receive a start current input, wherein the start current input establishes the start current for the sequencing stage of the selected waveform.