System and method for handling a composite workpiece in a work cell

What is claimed is: 1. A system for handling a composite workpiece one of a plurality of work cells, wherein the system comprises: a plurality of workpiece holders to hold the composite workpiece in the one of the plurality of work cells; and a first metrology system that generates as-built measurement data for the composite workpiece, wherein: the as-built measurement data is used to generate an as-built model of the composite workpiece that is representative of the composite workpiece having an as-built shape; each one of the plurality of workpiece holders is selectively controlled to index the composite workpiece in the one of the plurality of work cells; and at least one of the plurality of workpiece holders comprises a clamp that is selectively controlled to conform the composite workpiece to the as-built shape of the composite workpiece. 2. The system of claim 1 , wherein: the at least one of the plurality of workpiece holders further comprises a base; the clamp is coupled to the base and comprises: a first jaw; a support member coupled to the first jaw; and a second jaw coupled to the support member, the second jaw is movable along the support member relative to the first jaw to clamp the composite workpiece between the first jaw and the second jaw so that the composite workpiece has the as-built shape; and with the composite workpiece clamped between the first jaw and the second jaw, the clamp is movable relative to the base to index the composite workpiece. 3. The system of claim 2 , wherein: the second metrology system further generates as-machined measurement data after a machining operation; the as-machined measurement data is representative of the composite workpiece having an as-machined shape; and the computing device is further operable to generate an as-machined model, from the as-machined measurement data, that is representative of the composite workpiece having the as-machined shape. 4. The system of claim 2 , wherein: the at least one of the plurality of workpiece holders further comprises: a plurality of numerical control contacts located along the first jaw; and a plurality of force control contacts located along the second jaw; each one of the plurality of numerical control contacts is selectively extendable and retractable relative to the first jaw to a numerical control location based on the as-built shape of the composite workpiece; each one of the plurality of force control contacts is selectively extendable and retractable relative to the second jaw to apply a shaping force to the composite workpiece; and the shaping force, applied by each one of the plurality of force control contacts, forces the composite workpiece against the plurality of numerical control contacts to conform the composite workpiece to the as-built shape of the composite workpiece. 5. The system of claim 4 , wherein each one of the plurality of numerical control contacts comprises: a numerical control actuator; a first vacuum gripper coupled to the numerical control actuator; and a first actuator control unit that controls extension and retraction of the numerical control actuator to locate the first vacuum gripper at the numerical control location. 6. The system of claim 4 , wherein each one of the plurality of force control contacts comprises: a force control actuator; a second vacuum gripper coupled to the force control actuator; a force sensor that detects a load applied to the force control actuator; and a second actuator control unit that controls extension and retraction of the force control actuator to apply the shaping force to the composite workpiece. 7. The system of claim 4 , wherein the numerical control location of each one of the plurality of numerical control contacts corresponds to a coordinate location on a first surface of the composite workpiece represented by the as-built model of the composite workpiece. 8. The system of claim 1 , wherein the as-built measurement data for the composite workpiece is generated while the composite workpiece is on a tool used to cure the composite workpiece. 9. The system of claim 1 , further comprising a second metrology system that generates real-time measurement data for the composite workpiece while the composite workpiece is held by the plurality of workpiece holders, wherein: the real-time measurement data is representative of the composite workpiece having a real-time shape as held by the plurality of workpiece holders; and the clamp of the at least one of the plurality of workpiece holders is selectively controlled to conform the real-time shape of the composite workpiece to the as-built shape of the composite workpiece. 10. The system of claim 9 , further comprising a computing device that is operable to: generate a real-time model from the real-time measurement data, wherein the real-time model is representative of the composite workpiece having the real-time shape as held by the plurality of workpiece holders; compare the real-time model to the as-built model; and selectively actuate the clamp of the at least one of the plurality of workpiece holders based on a comparison of the real-time model to the as-built model. 11. The system of claim 10 , wherein: the clamp comprises: at least one numerical control contact; and at least one force control contact opposite the at least one numerical control contact; and the computing device is operable to: selectively extend or retract the numerical control contact to a numerical control location based on the as-built shape; and selectively extend or retract the force control contact to apply a shaping force to the composite workpiece that forces the composite workpiece against the numerical control contact to conform the composite workpiece to the as-built shape. 12. The system of claim 11 , wherein the computing device is further operable to: selectively modify the numerical control location based on the comparison of the real-time model to the as-built model; and selectively extend or retract the numerical control contact to a modified numerical control location. 13. The system of claim 9 , wherein the second metrology system comprises a 3D scanner. 14. The system of claim 1 , wherein the first metrology system comprises a 3D scanner. 15. A workpiece holder for handling a composite workpiece, wherein the workpiece holder comprises: a base; a clamp coupled to the base, wherein the clamp comprises: a first jaw; a support member coupled to the first jaw; and a second jaw coupled to the support member; a plurality of numerical control contacts located along the first jaw; a plurality of force control contact located along the second jaw, wherein: each one of the plurality of numerical control contacts is selectively extendable and retractable to a numerical control location based on an as-built shape of the composite workpiece; the second jaw is movable along the support member relative to the first jaw to clamp the composite workpiece between at least one of the numerical control contacts and at least one of the force control contacts; each one the plurality of force control contacts is selectively extendable and retractable relative to the second jaw to apply a shaping force to the composite workpiece so that the composite workpiece conforms to the as-built shape of the composite workpiece; and with the composite workpiece clamped between the plurality of numerical control contacts and the plurality of force control contacts, the clamp is movable relative to the base to index the composite workpiece in a work cell.