Method and system for optimizing shipping methodology for 2-directional floor joists

The invention claimed is: 1. A computer method for optimizing the shipping of floor joists, comprising: analyzing, by at least one processor, a building model, wherein a set of floor joists are identified, analyzed, and isolated; processing, by at least one processor, a first set of data associated each of the set of floor joists, wherein the first set of data is related to members of the floor joist and the interface between these members; isolating, by at least one processor, the set of floor joists within the building model; simulating, by at least one processor, an assembly process of the floor joists, wherein a second set of data is created associated with the assembly process; producing, by at least one processor, a manipulated assembly of the floor joists based on limitations of a shipping vessel, wherein a bundle is formed; simulating, by at least one processor, a manipulated assembly process of the floor joists from the bundle based on the second set of data; and generating, by at least one processor, a graphical representation of the bundle and the position of the bundle within the shipping vessel, the manipulated assembly process, and the assembly process of the set of floor joists. 2. The computer method of claim 1 , further comprising, incorporating, by at least one processor a set of spacers between the floor joists of the bundle, wherein the spacers are positioned at predetermined locations. 3. The computer method of claim 1 , wherein the manipulation of the bundle, further comprising, altering, by at least one processor, the floor joists based on the interfaces between the members, wherein the floor joists are separated into sections. 4. The computer method of claim 3 , further comprising, grouping, by at least one processor, the sections based on an assembly process of the floor joist. 5. The computer method of claim 1 , further comprising, determining, by at least one processor, the interface between the isolated floor joists, where a set of data is created related to the floor joist relationship in reference to the model design. 6. The computer method of claim 5 , wherein the organization of the floor joists within the shipping vessel is based on an assembly process of the floor joists. 7. A computer program product for optimizing the shipping of floor joists, comprising: one or more computer non-transitory readable storage media and program instructions stored on the one or more computer non-transitory readable storage media, the program instructions comprising: program instructions to analyze a building model, wherein floor joist assemblies are isolated from the building model; program instructions to process a first set of data associated each of the floor joist assemblies, wherein the first set of data is related to members and the interface between these members; program instructions to formulate a manipulated assembly of the floor joist assemblies based on a shipping vessel set of limitations; program instructions to simulate an assembly process from the manipulated assembly of the floor joists to a final assembly of the floor joists, wherein a second set of data associated with an assembly process of the floor joist assemblies is created; and program instructions to generate a graphical representation of the manipulated assembly of the floor joist assemblies, the assembly process of the floor joist assemblies, and the position within the shipping vessel. 8. The computer program product of claim 7 , further comprising, program instructions to simulate the assembly process of the floor joist based on the interface of the members. 9. The computer program product of claim 7 , further comprising, program instructions to incorporate a set of spacers between the floor joists of the bundle, wherein the spacers are positioned at predetermined locations. 10. The computer program product of claim 7 , wherein the manipulation of the bundle, further comprising, alter the floor joists based on the interfaces between the members, wherein the floor joists are separated into sections. 11. The computer program product of claim 10 , further comprising, group the sections based on an assembly process of the floor joist. 12. The computer program product of claim 7 , further comprising, program instructions to determine the interface between the isolated floor joists, where a set of data is created related to the floor joist relationship in reference to the model design. 13. The computer program product of claim 12 , wherein the organization of the floor joists within the shipping vessel is based on an assembly process of the floor joists. 14. A system for optimizing the shipping of floor joists, comprising: one or more computer processors, one or more computer non-transitory readable storage media, and program instructions stored on the one or more computer non-transitory readable storage media for execution by, at least one of the one or more processors, the program instructions comprising: analyzing a building model, wherein a set of floor joists are isolated from the building model within the software; processing a first set of data associated each of the set of floor joists, wherein the first set of data is related to members of the floor joist and the interface between these members; manipulating an original assembly of the floor joist to form a manipulated assembly of the floor joist, wherein the manipulated assembly is formulated to fit within a shipping vessel; converting the manipulated assembly to the original assembly, wherein a second set of data associated with an assembly process of the floor joists is created; creating a third set of data associated with the manipulated assembly, wherein a model of the bundle is created; generating a graphical representation of the bundle, an assembly process of the bundle, and the position of the bundle within the shipping vessel. 15. The system of claim 14 , further comprising, incorporating, by at least one processor a set of spacers between the floor joists of the bundle, wherein the spacers are positioned at predetermined locations. 16. The system of claim 14 wherein the manipulation of the bundle, further comprising, altering the floor joists based on the interfaces between the members, wherein the floor joists are separated into sections. 17. The system of claim 16 further comprising, grouping the sections based on an assembly process of the floor joist. 18. The system of claim 14 , further comprising, determining the interface between the isolated floor joists, where a set of data is created related to the floor joist relationship in reference to the model design.