Systems and methods for drilling a well

What is claimed is: 1. A system for determining one or more convergence paths for drilling a well, the system comprising: a processor; a memory coupled to the processor and storing a plurality of instructions executable by the processor, wherein the instructions comprise steps for: displaying a graphical user interface comprising a cost curve diagram, wherein the cost curve diagram comprises: a visual display of a cost associated with a convergence path for a bottom hole assembly (BHA) of the well being drilled to a target path for a wellbore, the visual display comprising a region of potential non-linear path costs, wherein the visual display is depicted relative to a true vertical depth (TVD) axis and an azimuth axis; a first manipulatable line that is manipulatable to affect a shape of the visual display, wherein the first manipulatable line is manipulatable relative to: a cost metric axis and a distance metric axis; receiving, by the graphic user interface, a user input of a manipulation of the first manipulatable line to a manipulated position; modifying, on the cost curve diagram, the region of the visual display based on the manipulation of the first manipulatable line to the manipulated position; providing a listing of potential convergence paths based on the modified region of the visual display; receiving a user input of a selection of a selected convergence path from the listing of potential convergence paths; and drilling the well in accordance with the selected convergence path. 2. The system of claim 1 wherein the convergence path for the BHA are based on one or more parameters, wherein the one or more parameters comprise at least one of: a minimum length of a segment; a maximum length of the segment; a maximum allowable dogleg severity; a direction of the segment; and an inclination of the segment. 3. The system of claim 1 , wherein the cost curve diagram further comprises a second manipulatable line that is manipulatable to affect a shape of the visual display, wherein the second manipulatable line is manipulatable relative to a cost metric axis and a distance metric axis; and wherein the visual display further comprises a boundary for an outer limit of non-linear costs for the convergence path. 4. The system of claim 3 , wherein the boundary corresponds to at least one of an overall curvature of the first manipulatable line, a peak curvature the first manipulatable line, or a location of curvature of the first manipulatable line relative to a geological feature. 5. The system of claim 1 , wherein the instructions further comprise steps for: displaying, on the graphic user interface, the target path for the wellbore on the cost curve diagram in relation to the region defined relative to the true vertical depth (TVD) axis and the azimuth axis. 6. The system of claim 3 , wherein: the first manipulatable line comprises a first end point and a second end point; the first end point and the second end point comprise a maximum cost penalty; and the manipulation of the first manipulatable line comprises manipulation of one of the first end point or the second end point to a modified position comprising a modified maximum cost penalty. 7. The system of claim 6 , wherein modifying, on the cost curve diagram, the visual display based on the manipulation of the first manipulatable line comprises adjusting the visual display based on the modified maximum cost penalty. 8. A method of determining one or more convergence paths for drilling a well, the method comprising: displaying a graphical user interface comprising a cost curve diagram, wherein the cost curve diagram comprises: a visual display of a cost associated with a convergence path for a bottom hole assembly (BHA) of the well being drilled to a target path for a wellbore, the visual display depicting including a region of potential non-linear path costs, wherein the visual display is depicted relative to a true vertical depth (TVD) axis and an azimuth axis; at least one manipulatable line wherein the at least one manipulatable line may be manipulated relative to a cost metric axis and a distance metric axis; receiving, by the graphic user interface, a user input of a manipulation of the at least one manipulatable line to a manipulated position; modifying, on the cost curve diagram, the visual display based on the manipulation of the at least one manipulatable line to the manipulated position; determining a potential convergence path based on the modified visual display; and drilling the well in accordance with the potential convergence path. 9. The method of claim 8 , wherein the convergence path for the BHA is based on one or more parameters, wherein the one or more parameters comprise least one of: a minimum length of a segment; a maximum length of the segment; a maximum allowable dogleg severity; a direction of the segment; and an inclination of the segment. 10. The method of claim 8 , wherein the visual display further comprises a boundary for an outer limit of non-linear costs for the convergence path. 11. The method of claim 10 , wherein the boundary corresponds to at least one of an overall curvature of the first manipulatable line, a peak curvature the first manipulatable line, or a location of curvature of the first manipulatable line relative to a geological feature. 12. The method of claim 8 , further comprising displaying, on the graphic user interface, the target path for the wellbore on the cost curve diagram in relation to the region defined relative to the vertical depth (TVD) axis and the azimuth axis. 13. The method of claim 8 , wherein: the first manipulatable line comprises a first end point and a second end point; the first end point and the second end point comprise a maximum cost penalty; and the manipulation of the first manipulatable line comprises manipulation of one of the first end point or the second end point to a modified position comprising a modified maximum cost penalty. 14. The method of claim 13 , modifying, on the cost curve diagram, the visual display based on the manipulation of the first manipulatable line comprises adjusting the visual display based on the modified maximum cost penalty. 15. A non-transitory computer readable medium comprising instructions executable by a processor, the instructions comprising instructions for: displaying a graphical user interface comprising a cost curve diagram, wherein the cost curve diagram comprises: a visual display of a cost associated with a convergence path for a bottom hole assembly (BHA) of a well being drilled to a target path for a wellbore, the visual depicting including a region of potential non-linear path costs, wherein the visual display is depicted relative to a true vertical depth (TVD) axis and an azimuth axis; a first manipulatable line and a second manipulatable line wherein the first manipulatable line and second manipulatable line may be manipulated relative to a cost metric axis and a distance metric axis receiving, by the graphic user interface, a user input of a manipulation of the first manipulatable line to a manipulated position; modifying, on the cost curve diagram, the visual display based on the manipulation of the first manipulatable line to the manipulated position; providing a listing of potential convergence paths based on the modified visual display; receiving a user input of a selection of a selected convergence path from the listing of potential convergence paths; and drilling the well in accordance with the selected convergence path. 16. The non-tr