Optimization of print layout, estimation of paperboard requirements and vendor selection based on box orders and printing machine availability

What is claimed is: 1. A method of optimizing production of packaging comprising the steps of: (a) providing a source of a sheet of packaging material, which comprises a sheet of paperboard or box board with a defined fiber direction, that includes generating a packaging material requirements specification and selecting a packaging material vendor; (b) providing a printer having a printer plate that is configured to transfer images to the sheet of packaging material to yield a printed sheet with a predetermined box print layout arrangement; (c) providing a cutting system that converts the printed sheet into individual pieces of packaging material; (d) providing a packaging system that folds the individual pieces of packaging material, which are made in step (c), to construct individual boxes wherein the individual pieces of packaging material has a length with a direction that is parallel to the fiber direction so that the boxes that are constructed have grain directions that are parallel to the fiber direction; (e) aggregating customer orders subject to the constraints of order delivery timing and packaging material properties requirements; and (f) generating a printed sheet with a predetermined box print layout arrangement that minimizes packaging material wastage by nesting multiple customer orders into a single production run wherein the predetermined box print layout arrangement contains an arrangement of a plurality of box patterns and wherein the arrangement defines exterior un-utilized regions and interior un-utilized regions and the arrangement minimizes the area of the interior un-utilized regions wherein the predetermined box print layout arrangement is optimized by sequential optimization based on the design or type of boxes produced wherein the boxes are sequentially allocated in the predetermined box print layout arrangement first with boxes having up and down settings, second with boxes having normal settings and third with boxes having square settings. 2. The method of claim 1 wherein step (e) comprises obtaining printer vendor specifications. 3. The method of claim 1 wherein the allocation of square boxes is based on printer and dye cutting machine parameters. 4. A method of optimizing production of packaging comprising the steps of: (a) providing a source of a sheet of packaging material which comprises a sheet of paperboard or box board with a defined fiber direction, that includes generating a packaging material requirements specification and selecting a packaging material vendor; (b) providing a printer having a printer plate that is configured to transfer images to the sheet of packaging material to yield a printed sheet with a predetermined box print layout arrangement; (c) providing a cutting system that converts the printed sheet into individual pieces of packaging material; (d) providing a packaging system that folds the individual pieces of packaging material, which are made in step (c), to construct individual boxes wherein the individual pieces of packaging material has a length with a direction that is parallel to the fiber direction so that the boxes that are constructed have grain directions that are parallel to the fiber direction; (e) aggregating customer orders subject to the constraints of order delivery timing and packaging material properties requirements by combining different customer orders based on quality standards and tolerances for the packaging material; and (f) generating a printed sheet with a predetermined box print layout arrangement that minimizes packaging material wastage by nesting multiple customer orders into a single production run and by optimizing the predetermined box print layout arrangement by combining different customer orders through adjustment of the tolerances for the packaging material wherein the predetermined box print layout arrangement contains an arrangement of a plurality of box patterns and wherein the arrangement defines exterior un-utilized regions and interior un-utilized regions and the arrangement minimizes the area of the interior un-utilized regions. 5. The method of claim 1 wherein step (f) comprises enhancing printer efficiency and utilization through optimization of printer deckle or width through nesting of multiple boxes in the same print layout arrangement. 6. The method of claim 1 wherein step (a) comprises selecting a packaging material vendor based on quality standard and tolerances. 7. The method of claim 6 wherein forecasted spot market prices for packaging material is a factor considered in selecting the packaging material vendor. 8. The method of claim 1 further comprising step (g) of estimating the quantity and size of packaging material required based on printer plate configuration. 9. The method of claim 1 wherein step (a) comprises selecting a paperboard or box board vendor based on delivery date. 10. The method of claim 1 wherein step (a) comprises selecting a paperboard or box board vendor and utilizing available inventory to reduce warehousing costs. 11. The method of claim 1 wherein step (b) comprises selecting a printer based on availability and when a plurality of printers are available at the same time predetermined box print layout arrangements are generated for at two available printers. 12. The method of claim 1 wherein step (f) comprises generating a printed sheet with a series of predetermined box print layout arrangements until box board quantity is completed utilized. 13. The method of claim 12 wherein step (f) comprises print layout arrangement optimization that is cyclic in nature and further comprising generating an optimized print layout arrangement until box board order quantity is fulfilled. 14. The method of claim 1 wherein step (f) comprises selecting a paperboard or box board order based on most fittable size in term of width and length for nesting the boxes inside open areas. 15. A method of optimizing production of packaging comprising the steps of: (a) providing a source of a sheet of packaging material which comprises a sheet of paperboard or box board with a defined fiber direction, that includes generating a packaging material requirements specification and selecting a packaging material vendor; (b) providing a printer having a printer plate that is configured to transfer images to the sheet of packaging material to yield a printed sheet with a predetermined box print layout arrangement; (c) providing a cutting system that converts the printed sheet into individual pieces of packaging material; (d) providing a packaging system that folds the individual pieces of packaging material, which are made in step (c), to construct individual boxes wherein the individual pieces of packaging material has a length with a direction that is parallel to the fiber direction so that the boxes that are constructed have grain directions that are parallel to the fiber direction; (e) aggregating customer orders subject to the constraints of order delivery timing and packaging material properties requirements; and (f) generating a printed sheet with a predetermined box print layout arrangement that minimizes packaging material wastage by nesting multiple customer orders into a single production run wherein the predetermined box print layout arrangement contains an arrangement of a plurality of box patterns and wherein the arrangement defines exterior un-utilized regions and interior un-utilized regions and the arrangement minimizes the area of the interior un-utilized regions and wherein a resultant of a solution print layout optimization engine is used as a target for packaging material vendor s