Methods and systems for identifying processing locations in composite layups

What is claimed is: 1. An optical magnetic marker dispenser, comprising: a magnetic retention ring, comprising a first end and a second end, opposite of the first end along a dispenser center axis, wherein the magnetic retention ring is magnetized and further comprises: a leading surface, positioned at the first end and forming a smallest angle with the dispenser center axis of less than 90°, and a side surface, extending between the first end and the second end; a magazine, connected to the magnetic retention ring; and a marker supporting cavity, extending through the magazine and the magnetic retention ring and open at the first end of the magnetic retention ring and configured to store a plurality of optical magnetic markers. 2. The optical magnetic marker dispenser of claim 1 , wherein the magnetic retention ring is diametrically magnetized. 3. The optical magnetic marker dispenser of claim 1 , wherein the magazine is magnetized. 4. The optical magnetic marker dispenser of claim 1 , wherein the magazine comprises a magazine neck and a magazine collar, having a larger diameter than the magazine neck and attached to the magnetic retention ring such that the magazine collar is disposed between the magnetic retention ring and the magazine neck. 5. The optical magnetic marker dispenser of claim 4 , wherein the magazine comprises a removal port, extending through the magazine collar and forming a portion of a neck-facing surface of the magazine collar. 6. The optical magnetic marker dispenser of claim 4 , wherein the magazine collar comprises a magazine processing surface, interfacing with the second end of the magnetic retention ring such that the side surface of the magnetic retention ring extends to and non-perpendicular to the magazine processing surface. 7. The optical magnetic marker dispenser of claim 4 , wherein the magazine neck is curved or flexible. 8. The optical magnetic marker dispenser of claim 1 , wherein the leading surface is tilted toward the magazine as the leading surface extends toward the dispenser center axis. 9. The optical magnetic marker dispenser of claim 1 , further comprising an optical magnetic marker, comprising: a non-magnetic portion, comprising an anchor; and a magnetic portion, offset relative to the non-magnetic portion along a marker center axis of the optical magnetic marker, the magnetic portion comprising a reflective surface. 10. The optical magnetic marker dispenser of claim 9 , wherein the magnetic portion of the optical magnetic marker is diametrically magnetized. 11. The optical magnetic marker dispenser of claim 9 , wherein the anchor of the optical magnetic marker is a radial recess or a bulb-shaped cavity. 12. The optical magnetic marker dispenser of claim 9 , wherein a height of the non-magnetic portion of the optical magnetic marker along the marker center axis is less than that of the magnetic portion. 13. The optical magnetic marker dispenser of claim 9 , wherein the side surface forms an angle with the dispenser center axis of greater than 0° . 14. The optical magnetic marker dispenser of claim 9 , wherein the magnetic portion of the optical magnetic marker comprises a nickel coating or a silver coating forming the reflective surface. 15. The optical magnetic marker dispenser of claim 9 , wherein the reflective surface is perpendicular to the marker center axis. 16. A layup tool, comprising: a layup tool base, comprising a base processing surface and a base cavity; and an optical magnetic marker dispenser, having a dispenser center axis and comprising: a magazine, protruding into the base cavity and supported within the base cavity by the layup tool base; a magnetic retention ring, being magnetized and connected to the magazine, the magnetic retention ring comprising: a leading surface, forming a smallest angle with the dispenser center axis of less than 9°, and a side surface; and a marker supporting cavity, extending through the magazine and the magnetic retention ring and open at the leading surface of the magnetic retention ring. 17. The layup tool of claim 16 , wherein the magazine is press-fit or threaded into the base cavity. 18. The layup tool of claim 16 , wherein the magazine comprises a magazine neck and a magazine collar, having a larger diameter than the magazine neck and press-fit or threaded into the base cavity. 19. The layup tool of claim 16 , wherein the magazine extends through the layup tool base. 20. The layup tool of claim 16 , wherein the magazine comprises a magazine processing surface, coplanar with the base processing surface, and wherein the side surface extends between the magazine processing surface and the leading surface.