Multi-step drilling apparatus and methods utilizing air flow sensing control

What is claimed is: 1 . A method of performing a multi-step machining process utilizing a plurality of drilling units, the method comprising: positioning a cutting tool of a portable drilling apparatus adjacent to a surface of a workpiece attached to be machined; utilizing an air pressure sensor in a vacuum exhaust system of the portable drilling apparatus to indicate an air flow at the surface of the workpiece by measuring an air pressure at the surface; comparing the measured air pressure against a predetermined threshold; responsive to the comparison, determining if a hole has been drilled in the workpiece; and if it is determined that no hole has been drilled in the workpiece, and the portable drilling apparatus is configured to drill a first hole in the multi-step machining process, drilling the first hole on the workpiece. 2 . The method of performing the multi-step machining process of claim 1 , further comprising the step of: if it is determined that a hole has already been drilled in the workpiece, and the portable drilling apparatus is configured to drill a first hole in the multi-step machining process, repositioning the portable drilling apparatus to at least one of another workpiece or another location on the workpiece. 3 . The method of performing the multi-step machining process of claim 2 , where the workpiece is attached to a drilling jig comprising a plurality of guide holes. 4 . The method of performing the multi-step machining process of claim 2 , where the vacuum exhaust system comprises: an exhaust duct comprising an inlet end connected to a drilling unit of the portable drilling apparatus containing the cutting tool, and an outlet end configured for connection to an external vacuum source. 5 . The method of performing the multi-step machining process of claim 1 , further comprising the step of: if it is determined that no hole has been drilled in the workpiece, and the portable drilling apparatus is configured to drill a second hole in the multi-step machining process, repositioning the portable drilling apparatus to at least one of another workpiece or another location on the workpiece. 6 . The method of performing the multi-step machining process of claim 1 , further comprising the step of: if it is determined that a first hole has already been drilled in the workpiece, and the portable drilling apparatus is configured to drill a second hole in the multi-step machining process, drilling the second hole on the workpiece. 7 . The method of performing the multi-step machining process of claim 6 , where the step of repositioning the portable drilling apparatus to another workpiece comprises unclamping the portable drilling apparatus from one guide hole on the drilling jig and clamping it to another guide hole on the drilling jig. 8 . The method of performing the multi-step machining process of claim 6 , further comprising the step of displaying to a user of the portable drilling apparatus a status of the multi-step machining process based on the comparing the measured air pressure against the predetermined threshold. 9 . A portable drilling apparatus configured to perform a step of a multi-step machining process, the portable drilling apparatus comprising: a vacuum exhaust system; and an air pressure sensor in fluid communication with the vacuum exhaust system, where the air pressure sensor is configured to indicate an air flow at a surface of a workpiece being machined by the portable drilling apparatus by measuring an air pressure at the surface and comparing the measured air pressure to a predetermined threshold. 10 . The portable drilling apparatus of claim 9 , where the air pressure sensor is located on an exhaust duct of the vacuum exhaust system. 11 . The portable drilling apparatus of claim 10 , further comprising: a drilling unit having a cutting tool; a nosepiece attachment configured to provide for rigid and radially symmetrical fixation of the drilling unit onto a drill jig having a drill jig plate; and a drilling unit control system. 12 . The portable drilling apparatus of claim 11 , where the drilling unit comprises a cavity wherein the cutting tool of the drilling unit is engaged with the workpiece. 13 . The portable drilling apparatus of claim 12 , where the vacuum exhaust system further comprises an exhaust duct comprising an inlet end connected to the cavity of the drilling unit, and an outlet end configured for connection to an external vacuum source. 14 . The portable drilling apparatus of claim 13 , further comprising a display that indicates to a user of the portable drilling apparatus a status of the multi-step machining process relative to the workpiece being machined by the portable drilling apparatus. 15 . A multi-step machining system for machining a composite/metal stack material, the multi-step machining system comprising: a plurality of drilling units each configured to perform at least one step of a multi-step machining process; an air pressure sensor located in each drilling unit configured to indicate an air flow at a surface of a workpiece to be machined by the drilling unit by measuring an air pressure at the surface; and a control system in signal communication with each air pressure sensor configured to: compare the measured air pressure against a predetermined threshold; responsive to the comparison, determining if a hole has been drilled in the workpiece where the measured air pressure was taken; and responsive to the determination, having the drilling unit proceed or not proceed dependent on the step it is configured to perform and its sequence in the multi-step machining process. 16 . The multi-step machining system of claim 15 , where, if it is determined that a hole has already been drilled in the workpiece, and the drilling unit is configured to drill a first hole in the multi-step machining process, the control system is further configured to not have the drilling unit proceed to drill the workpiece. 17 . The multi-step machining system of claim 15 , where, if it is determined that a hole has not been drilled in the workpiece, and the drilling unit is configured to drill a first hole in the multi-step machining process, the control system is further configured to have the drilling unit proceed to drill the workpiece. 18 . The multi-step machining system of claim 15 , where the control system is further configured to display, on each drilling unit, a status indication that shows an operator of the multi-step machining system whether that drilling unit is to proceed or not proceed to perform its step of the multi-step machining process. 19 . The multi-step machining system of claim 18 , where the control system is further configured to transmit a control signal to a drilling unit that prevents it from drilling a hole when it has been determined that the drilling unit is not to proceed.