Rotation and nozzle opening control of extruders in printing systems

1 . A non-transitory computer readable storage comprising instructions for a printer comprising a controller, a material feeder, and an extruder including a nozzle that, when executed by the controller, perform a method comprising: receiving a 3D model; and based on the received 3D model, generating printing instructions configured to cause the material feeder and extruder to generate at least a portion of the 3D model, the printing instructions comprising one or more instructions configured to cause the material feeder and the extruder to print a plurality of layers by at least: rotating a tip of the nozzle of the extruder by a plurality of rotation angles, the tip comprising an opening configured to discharge material; and modifying flow of the material when the tip of the nozzle is rotated; and executing the printing instructions to cause the material feeder and extruder to generate at least the portion of the 3D model. 2 . The computer readable storage of claim 1 , wherein the one or more instructions are further configured to cause the nozzle to be rotated around an axis so as to align the tip with a plurality of paths along which the material is configured to be deposited for generating at least the portion of the 3D model. 3 . The computer readable storage of claim 1 , wherein the one or more instructions to print the plurality of layers comprise G-code data. 4 . The computer readable storage of claim 1 , wherein a path along which the material is configured to be deposited comprises a curve having inside and outside edges, the outside edge having a longer radius than the inside edge, and wherein the one or more instructions are further configured to decrease a rate of flow of the material when the nozzle is configured to deposit the material while maintaining a substantially constant velocity at the outside edge. 5 . The computer readable storage of claim 1 , wherein a path along which the material is configured to be deposited comprises a curve having inside and outside edges, the inside edge having a smaller radius than the outside edge, and wherein the one or more instructions are further configured to increase a rate of flow of the material when the nozzle is configured to deposit the material while maintaining a substantially constant velocity at the inside edge. 6 . The computer readable storage of claim 1 , wherein a path along which the material is configured to be deposited comprises a corner, and wherein the one or more instructions are further configured to rotate the tip of the nozzle to trace the corner. 7 . The computer readable storage of claim 1 , wherein the one or more instructions are further configured to modify a size of an adjustable opening of the tip of the nozzle based on a plurality of opening adjustments configured to control deposit of the material. 8 . The computer readable storage of claim 7 , wherein the one or more instructions are further configured to separately modify flow of the material and modify the size of the adjustable opening of the tip of the nozzle. 9 . The computer readable storage of claim 7 , wherein the size of the opening comprises a width of the opening, and wherein the one or more instructions are further configured to modify the width of the opening to control dimensions of an area where the material is deposited. 10 . The computer readable storage of claim 9 , wherein a path along which the material is configured to be deposited comprises a corner, and wherein the one or more instructions are further configured to reduce the width of the opening when the tip traces the corner. 11 . The computer readable storage of claim 7 , wherein the 3D model comprises first and second parts that are not adjacent in a three-dimensional space, and wherein the one or more instructions are further configured to close the adjustable opening when the nozzle moves from the first part to the second part. 12 . A three-dimensional (3D) printing method for a printer comprising a controller, a material feeder, and an extruder including a nozzle, the method comprising: receiving a 3D model; and based on the received 3D model, generating, by the controller, printing instructions configured to cause the material feeder and extruder to generate at least a portion of the 3D model, the printing instructions comprising one or more instructions configured to cause the material feeder and the extruder to print a plurality of layers by at least: rotating a tip of the nozzle of the extruder by a plurality of rotation angles, the tip comprising an opening configured to discharge material; and modifying flow of the material when the tip of the nozzle is rotated; and executing, by the controller, the printing instructions to cause the material feeder and extruder to generate at least the portion of the 3D model. 13 . The method of claim 12 , wherein the one or more instructions are configured to cause the nozzle to be rotated around an axis so as to align the tip with a plurality of paths along which the material is configured to be deposited for generating at least the portion of the 3D model. 14 . The method of claim 12 , wherein the one or more instructions to print the plurality of layers comprise G-code data. 15 . The method of claim 12 , wherein a path along which the material is configured to be deposited comprises a curve having inside and outside edges, the outside edge having a longer radius than the inside edge, and wherein the one or more instructions are further configured to decrease a rate of flow of the material when the nozzle is configured to deposit the material while maintaining a substantially constant velocity at the outside edge. 16 . The method of claim 12 , wherein a path along which the material is configured to be deposited comprises a curve having inside and outside edges, the inside edge having a smaller radius than the outside edge, and wherein the one or more instructions are further configured to increase a rate of flow of the material when the nozzle is configured to deposit the material while maintaining a substantially constant velocity at the inside edge. 17 . The method of claim 12 , wherein a path along which the material is configured to be deposited comprises a corner, and wherein the one or more instructions are further configured to rotate the tip of the nozzle to trace the corner. 18 . The method of claim 12 , wherein the one or more instructions are further configured to modify a size of an adjustable opening of the tip of the nozzle based on a plurality of opening adjustments configured to control deposit of the material. 19 . The method of claim 18 , wherein the one or more instructions are further configured to separately modify flow of the material and modify the size of the adjustable opening of the tip of the nozzle. 20 . The method of claim 18 , wherein the size of the opening comprises a width of the opening, and wherein the one or more instructions are further configured to modify the width of the opening to control dimensions of an area where the material is deposited. 21 . The method of claim 20 , wherein a path along which the material is configured to be deposited comprises a corner, and wherein the one or more instructions are further configured to reduce the width of the opening when the tip traces the corner. 22 . The method of claim 18 , wherein the 3D model comprises first and second parts that are not adjacent in a three-dimensional space, and wherein the one or more i