Generation of structural elements for subsurface formation using stratigraphic implicit function

What is claimed is: 1 . A method of generating structural information for a subsurface formation, comprising: determining a location in a volume of interest in the subsurface formation from subsurface formation data associated with the subsurface formation; accessing a numerical model having a monotonously varying stratigraphic implicit function defined within the volume of interest to determine a value of the stratigraphic implicit function corresponding to the determined location; and generating at least one structural element for the subsurface formation from the stratigraphic implicit function of the numerical model based upon a spatial distribution of the determined value within the volume of interest. 2 . The method of claim 1 , further comprising: receiving user input directed to a graphical depiction of subsurface formation data, wherein determining the location in the volume of interest includes determining the location based upon the user input; and causing a graphical depiction of the at least one structural element to be displayed in the graphical depiction of the subsurface formation data. 3 . The method of claim 2 , wherein: the graphical depiction of subsurface formation data comprises a graphical depiction of subsurface formation data for each of first and second boreholes formed in the subsurface formation; the user input comprises user selection of a first proposed well top for the first borehole on the graphical depiction of subsurface formation data for the first borehole; the location in the volume of interest includes a depth along the first wellbore corresponding to the user selection of the first proposed well top; accessing the numerical model to determine the value of the stratigraphic implicit function comprises determining the value of the stratigraphic implicit function at the depth along the first borehole; generating at least one structural element comprises generating, for the second borehole, a second proposed well top corresponding to the first proposed well top for the first borehole based upon the determined value of the stratigraphic implicit function; and causing the at least one structural element to be displayed in the graphical depiction of the subsurface formation data includes causing a graphical depiction of the second proposed well top to be displayed on the graphical depiction of subsurface formation data for the second borehole. 4 . The method of claim 3 , wherein the graphical depictions of subsurface formation data for the first and second boreholes each comprise a well track of a well log or a well path in a three dimensional view. 5 . The method of any of the preceding claims, wherein: the subsurface formation data includes subsurface formation data for each of first and second boreholes formed in the subsurface formation; the location in the volume of interest includes a depth along the first wellbore corresponding a first proposed well top for the first borehole; accessing the numerical model to determine the value of the stratigraphic implicit function comprises determining the value of the stratigraphic implicit function at the depth along the first borehole; and generating at least one structural element comprises generating, for the second borehole, a second proposed well top corresponding to the first proposed well top for the first borehole based upon the determined value of the stratigraphic implicit function. 6 . The method of claim 5 , further comprising sampling the stratigraphic implicit function along each of first and second well paths respectively corresponding to the first and second boreholes, wherein accessing the numerical model to determine the value of the stratigraphic implicit function includes determining the value from the sampled stratigraphic implicit function along the first well path, and wherein generating the second proposed well top comprises generating a location of the second proposed well top from the sampled stratigraphic implicit function along the second well path. 7 . The method of claim 6 , wherein sampling comprises sampling at substantially regular depths along the first and second well paths or sampling at intersections between the first and second well paths and faces of a tetrahedral mesh of the numerical model. 8 . The method of claim 6 , wherein sampling further comprises taking at least one sample proximate an intersection between the first or second well path and a discontinuity, a fault or a conformable horizon defined in the numerical model. 9 . The method of claim 5 , further comprising, after generating the second proposed well top based upon the determined value of the stratigraphic implicit function, automatically adjusting a location of the second proposed well top based upon first and second petrophysical logs respectively associated with the first and second boreholes, and wherein automatically adjusting the location of the second proposed well top includes iteratively perturbing an offset or a stretch/squeeze factor and correlating the first and second petrophysical logs in a vicinity of the first and second proposed well tops. 10 . The method of any of the preceding claims, wherein the at least one structural element comprises a geological map of an intermediate geological horizon, and wherein the intermediate geological horizon is not used to constrain the numerical model prior to being generated. 11 . The method of any of the preceding claims, wherein: the subsurface formation data comprises a seismic image; the location in the volume of interest corresponds to a point in the seismic image; accessing the numerical model to determine the value of the stratigraphic implicit function comprises determining the value of the stratigraphic implicit function at the point in the seismic image; and generating at least one structural element comprises generating a surface or a plurality of points in the seismic image based upon the determined value of the stratigraphic implicit function. 12 . The method of any of the preceding claims, wherein: determining the location in the volume of interest includes determining a plurality of locations in the volume of interest; accessing the numerical model to determine the value of the stratigraphic implicit function comprises: determining the value of the stratigraphic implicit function for each of the determined plurality of locations; and determining a residual for each of the determined plurality of locations from the determined value for each of the plurality of locations; and generating at least one structural element comprises generating a surface or a plurality of points based upon the determined value and determined residual for each of the plurality of locations. 13 . The method of claim 12 , wherein the residual is interpolated, wherein determining the residual for each of the plurality of locations includes determining the residual at a first location among the plurality of locations as a difference between the value of the stratigraphic implicit function for the first location and an arbitrarily selected value, and wherein the method further comprises updating the stratigraphic implicit function by adding the determined residual for each of the plurality of locations with the determined value for the stratigraphic implicit function for each of the plurality of locations. 14 . An apparatus, comprising: at least one processing unit; and program code configured upon execution by the at least one processing unit to generate structural information for a subsurface formation using the method of any of claims 1 - 13 .