Hard disk drive transformation from OEM packaging to automation friendly containers

The invention claimed is: 1. A system comprising: a cutting sub-system arranged for cutting a box into a first portion and a second portion and comprising at least one pair of cutting elements; a dunnage gripper sub-system arranged downstream of the cutting sub-system and comprising a dunnage gripper configured to selectively grip and release a portion of the box; a robotic system comprising at least a first robotic arm and a second robotic arm, the first robotic arm comprising a first plurality of grippers configured to selectively grip and release items contained in the box, the second robotic arm comprising a second plurality of grippers configured to selectively position the items into a tote positioned at a second predetermined location; and a bag removal sub-system comprising: a plurality of compartments, each of the plurality of compartments configured to receive one of the items contained in the box; a bag gripper associated with each of the plurality of compartments and configured to grip a bottom portion of a static-shield bag of the item received in a corresponding one of the plurality of compartments; and a bag cutting element associated with at least one of the plurality of compartments and configured to the cut the bottom portion of the static-shield bag gripped by the bag gripper. 2. The system according to claim 1 , wherein the cutting sub-system comprises: a first cutting sub-system comprising a first of the at least one pair of cutting elements configured to cut at least a first lateral wall of the box and a second lateral wall of the box opposite the first lateral wall; and a second cutting sub-system comprising a second of the at least one pair of cutting elements configured to a third lateral wall of the box and a fourth lateral wall of the box opposite the third lateral wall, the third and fourth lateral walls being perpendicular to the first and second lateral walls. 3. The system according to claim 2 , further comprising a first conveyor mechanism configured to transport the box to the first cutting sub-system, the first conveyor mechanism having a first end and a second end. 4. The system according to claim 3 , wherein the first cutting sub-system comprises a first frame spanning across the first conveyor mechanism in vicinity of the second end, and wherein the first pair of cutting elements comprises a first cutting element mounted on the first frame on a first side of the first conveyor mechanism at a predetermined height and a second cutting element mounted on the first frame on a second side of the first conveyor mechanism at the predetermined height. 5. The system according to claim 4 , wherein the first and second cutting elements are spaced apart from one another by a first distance less than or equal to a dimension of the third and fourth lateral walls. 6. The system according to claim 4 , wherein the predetermined height of the first and second cutting elements is adjustable. 7. The system according to claim 1 , wherein the second cutting sub-system comprises a second frame spanning across the second conveyor mechanism, wherein the second pair of cutting elements comprises a third cutting element mounted the second frame on a first side of the second conveyor mechanism at the predetermined height and a fourth cutting element mounted on the second frame on a second side of the second conveyor mechanism at the predetermined height. 8. The system of claim 7 , wherein the third and fourth cutting elements are spaced apart from one another by a second distance less than or equal to a dimension of the first and second lateral walls. 9. The system of claim 7 , wherein the predetermined height of the third and fourth cutting elements is adjustable. 10. The system according to claim 1 , wherein the first robotic arm is configured, using the first plurality of grippers, to remove a top portion of the static-shield bags from the plurality of compartments and to deposit the top portions of the static-shield bags onto a dunnage conveyor mechanism. 11. The system according to claim 1 , further comprising a tote conveyor sub-system arranged in operational vicinity of a second conveyor mechanism and comprising: an empty tote conveyor mechanism configured to transport an empty tote to an operational vicinity of the second robotic arm; a full tote conveyor mechanism configured to transport a full tote away from the second robotic arm; and a rejected tote conveyor mechanism configured to transport a rejected tote away from the second robotic arm. 12. The system according to claim 11 , wherein the tote conveyor sub-system further comprises: a first cross-push sub-system configured to push an empty tote from the empty tote conveyor mechanism onto the full tote conveyor mechanism; and a second cross-push sub-system configured to push a rejected tote from the full tote conveyor mechanism onto the rejected tote conveyor mechanism. 13. The system according to claim 12 , wherein the first cross-push sub-system comprises: a third drive mechanism; and a third pushing plate operatively associated with the third drive mechanism and configured to sweep across the empty tote conveyor mechanism toward the full tote conveyor mechanism, and wherein the second cross-push sub-system comprises: a fourth drive mechanism; and a fourth pushing plate operatively associated with the fourth drive mechanism and configured to sweep across the full tote conveyor mechanism toward the rejected tote conveyor mechanism. 14. The system according to claim 1 , wherein the robotic system further comprises an identification system configured for identifying the plurality of items and the tote. 15. A system comprising: a cutting sub-system arranged for cutting a box into a first half and a second half and comprising at least one pair of cutting elements; a dunnage gripper sub-system arranged downstream of the cutting sub-system and comprising a dunnage gripper configured to selectively grip and release a portion of the box; and a robotic system comprising at least a first robotic arm and a second robotic arm, the first robotic arm comprising a first plurality of grippers configured to selectively grip and release items contained in the box, the second robotic arm comprising a second plurality of grippers configured to selectively position the items into a tote positioned at a second predetermined location, a first conveyor mechanism configured to transport the box to the first cutting sub-system, the first conveyor mechanism having a first end and a second end, a second conveyor mechanism arranged perpendicularly to the first conveyor mechanism in vicinity of the second end, wherein the dunnage gripper sub-system is arranged across the second conveyor mechanism, and wherein the dunnage gripper sub-system comprises: a third frame spanning across the second conveyor mechanism; a fourth frame, parallel to the third frame, spanning across the second conveyor mechanism; a first guiding mechanism disposed on the third frame; a second guiding mechanism disposed on the fourth frame; and a gripper frame movably coupled to the first and second guiding mechanisms, wherein the dunnage gripper is movably coupled to the gripper frame, the dunnage gripper configured to move upward relative to the gripper frame away from the second conveyor mechanism and downward relative to the gripper frame toward the second conveyor mechanism. 16. The system according to claim 15 , further comprising a dunnage conveyor mechanism arranged parallel to the second conveyor mechanism, wherein the third