Zero Lead Generative Cutting Tool

What is claimed is: 1 . A gear cutting tool, comprising: a head that is programmably moveable in three axes; a rotary tool mounted to the head; a cutting tool with cutters having a zero lead angle, the cutting tool attached to the rotary tool so that as the rotary tool spins the cutting tool about a cutting tool central axis, the cutting tool and the rotary tool are moveable in three dimensions; and a workpiece holder that holds a workpiece proximate to the cutting tool, the workpiece holder configured to rotate the workpiece about a workpiece axis in conjunction with at least one dimension of movement of the cutting tool. 2 . The gear cutting tool of claim 1 , further comprising: a head rotator that reorients the cutting tool central axis radially about an axis of rotation of the head rotator. 3 . The gear cutting tool of claim 2 , further comprising: a controller that coordinates independent motion of the head, the head rotator, and the workpiece holder according to a desired gear profile. 4 . The gear cutting tool of claim 3 , wherein the controller moves the cutting tool perpendicular to a tooth line of the workpiece. 5 . The gear cutting tool of claim 4 , wherein when a contact point between the cutting tool and the workpiece is at one end of the cutting tool, the controller i) disengages the cutting tool from contact with the workpiece, ii) resets the cutting tool to establish the contact point using an opposite end of the cutting tool, and iii) restarts the motion of the cutting tool and the workpiece holder. 6 . The gear cutting tool of claim 3 , wherein a cutting motion sequence of the cutting tool with respect to the workpiece is repeated at one of a deeper cut or an offset to make a higher tolerance gear tooth. 7 . The gear cutting tool of claim 3 , wherein a space of gear teeth in the workpiece is independent of a width of the cutters on the cutting tool. 8 . The gear cutting tool of claim 3 , wherein a rotation speed of the workpiece holder is independent of a rotation speed of the cutting tool. 9 . The gear cutting tool of claim 1 , wherein a cutting tool base has a recess for inserting a replaceable cutter, the recess perpendicular to the cutting tool central axis. 10 . A gear cutting tool, comprising: a cutting tool with zero lead cutters disposed around a central axis; a rotary tool that rotates the cutting tool around the central axis; a head that moves the cutting tool longitudinally along the central axis of the cutting tool; and a workpiece holder adapted hold a workpiece, the workpiece holder adapted to selectively rotate the workpiece in conjunction with the longitudinal movement of the cutting tool via the head. 11 . The gear cutting tool of claim 10 , wherein the head is adapted to move the cutting tool perpendicular to the central axis of the cutting tool in a y-axis. 12 . The gear cutting tool of claim 11 , wherein the head is adapted to move the head in a z-axis that is orthogonal to both to the central axis of the cutting tool and to the y-axis. 13 . The gear cutting tool of claim 12 , further comprising a controller that controls the longitudinal movement of the head in x, y, and z axes, and rotating of the workpiece. 14 . A method of cutting gears, comprising: providing a cutting tool with cutters having a zero lead angle; orienting the cutting tool with respect to a workpiece; rotating the cutting tool about a central axis of the cutting tool; engaging the cutting tool with the workpiece to cut gear teeth into the workpiece; shifting the cutting tool along the central axis of the cutting tool; rotating the workpiece while shifting the cutting tool perpendicular to the central axis; and axially feeding the cutting tool perpendicular to the central axis while engaging the workpiece. 15 . The method of claim 14 , further comprising: when a contact point between the cutting tool and the workpiece reaches one end of the cutting tool, indexing the cutting tool to reestablish the contact point of the workpiece with an opposite end of the cutting tool. 16 . The method of claim 14 , further comprising: rotating the central axis of the cutting tool with respect to a rotation axis of the workpiece when cutting a helical gear. 17 . The method of claim 14 , further comprising: repeating a motion of the cutting tool at a deeper cut to produce a higher tolerance gear tooth in the workpiece. 18 . The method of claim 14 , wherein providing the cutting tool with cutters having the zero lead angle comprises providing the cutting tool with replaceable cutters having the zero lead angle. 19 . The method of claim 14 , wherein a rotation speed of the cutting tool is independent of a speed of rotating the workpiece. 20 . The method of claim 19 , wherein the rotation speed of the cutting tool is increased to produce a higher tolerance finish in the workpiece and a speed of axially feeding the cutting tool perpendicular to the central axis is decreased to produce a higher tolerance finish in the workpiece and a rate of shifting the cutting tool along the central axis is decreased to produce a higher tolerance finish in the workpiece.