System and method for mag ranging drilling control

What is claimed is: 1. An apparatus associated with a drilling rig, comprising: a computer system configured to be coupled to a drilling rig for controlling drilling of a second borehole relative to a previously-drilled first borehole, wherein the computer system comprises: a processor; a memory coupled to the processor, the memory storing a plurality of non-transitory computer readable instructions for execution by the processor, wherein the instructions comprise instructions for execution by the processor to, during drilling of the second borehole by the drilling rig: receive first historical information about the first borehole and second historical information about the second borehole, wherein the first historical information and the second historical information comprises one or more of drilling speed, weight on bit, differential pressure, and toolface orientation; receive information from a downhole magnetic sensor and determine a current spacing between the second borehole and the first borehole and a current position of the second borehole; generate, based on the received first historical information, the received second historical information, and the current position of the second borehole, a plurality of solution paths of the second borehole relative to the first borehole from the current position of the second borehole, each solution path associated with a value, wherein the value varies asymmetrically with respect to a distance between the first borehole and the second borehole; compare the value associated with each of the solution paths and identify one solution path from the plurality of solution paths as a target path based on the value of the identified one solution path, wherein the one solution path has a lowest cost for drilling the second borehole and provides a desired spacing of the second borehole relative to the first borehole; send control information to a control system of the drilling rig, the control information to control one or more drilling parameters; and drill the second borehole in accordance with the target path. 2. The apparatus of claim 1 , wherein the instructions further comprise instructions executable by the processor to forecast the target path for the second borehole relative to the first borehole having at least a selected spacing from the first borehole based on the first historical information, second historical information, and the current spacing. 3. The apparatus of claim 1 , wherein the instructions further comprise instructions executable by the processor to forecast closure and divergence tendencies between a path of the second borehole and a path of the first borehole. 4. The apparatus of claim 1 , wherein the instructions further comprise instructions executable by the processor to forecast the target path such that the target path extends parallel to the first borehole at a selected spacing. 5. The apparatus of claim 1 , wherein the instructions further comprise instructions executable by the processor to identify the one solution path from the plurality of solution paths as the target path such that the target path comprises a minimum difference between the value of the target path and a target value compared to other of the plurality of solution paths. 6. A method for controlling drilling, the method comprising: receiving, by a surface system coupled to a drilling rig during drilling of a second borehole relative to a previously-drilled first borehole, first historical information about the first borehole and second historical information about the second borehole; receiving, by the surface system, from at least one magnetic sensor associated with a bottom hole assembly (BHA) located in the second borehole, a current spacing between the second borehole and the first borehole and a current position of the second borehole, wherein the first historical information and the second historical information comprises one or more of drilling speed, weight on bit, differential pressure, and toolface orientation; generating, based on the received first historical information, the received second historical information, and the current position of the second borehole, a plurality of solution paths of the second borehole relative to the first borehole from the current position of the second borehole, each solution path comprising a cost value that varies asymmetrically so as to associate an asymmetrically higher cost with a solution path determined to be too close to the first borehole; comparing the cost value of each solution path with a target value and identifying one solution path from the plurality of solution paths as a target path based on a minimum difference between the cost value and the target value compared to other solution paths; generating an updated drilling trajectory with the target path; sending, by the surface system, control information to a control system to control an operating function of the drilling rig to drill the second borehole according to the updated drilling trajectory with the target path; and drilling a portion of the second borehole in accordance with the updated drilling trajectory with the target path. 7. The method of claim 6 , further comprising forecasting the target path for the second borehole relative to the first borehole having at least a selected spacing from the first borehole based on the first historical information, second historical information, and the current spacing. 8. The method of claim 6 , wherein the BHA comprises a plurality of magnetic sensors, and wherein receiving the current spacing between the second borehole and the first borehole comprises receiving data from the plurality of magnetic sensors. 9. The method of claim 6 , further comprising forecasting closure and divergence tendencies between a path of the second borehole and a path of the first borehole. 10. The method of claim 6 , further comprising forecasting the target path such that the target path extends parallel to the first borehole at a selected spacing. 11. A method for controlling drilling, comprising: receiving, by a computer system coupled to a drilling rig, during drilling of a second borehole, a drilling trajectory of the second borehole relative to a previously-drilled first borehole; receiving, by the computer system, from at least one magnetic sensor associated with a bottom hole assembly (BHA) located in the second borehole, data associated with a current spacing between the second borehole and the first borehole; receiving, by the computer system, a trajectory of the first borehole; responsive to the drilling trajectory of the second borehole, the trajectory of the first borehole, and the data associated with the current spacing, forecasting, by the computer system, a target path for the second borehole spaced relative to the first borehole and having a selected spacing from the first borehole, the target path based on the drilling trajectory of the second borehole, the trajectory of the first borehole, and the data associated with the current spacing wherein the target path for the second borehole is associated with a value having an asymmetrical variance such that the value increases at a higher rate when the second borehole is within a selected distance from the first borehole; updating, by the computer system, the drilling trajectory for the second borehole responsive with the target path; sending, by the computer system, control information to a control system coupled to the drilling rig to drill the second borehole according to the updated drilling trajectory with the target path; and drilling a portion of the second borehole in accordance with the updated drilling trajectory with the target p