#ROKDOC MANUAL MANUAL#
Institute of Transportation Engineers - Trip Generation Manual 10th.
#ROKDOC MANUAL SOFTWARE#
Sgyfile = '' + drive_name + ':' + file_path + file_extįunction to load well markers exported from RokDoc in ASCII format.Ĭ6, c7, c8, c9, c10, c11 = c5. Software and Content: RokDoc works with Ikon Roknowledge regional studies and. decode( errors = 'ignore')įile_path = buf2. Sgyfile = (string) Path to sgy file associated with sxy index fileĭrive_name = buf1.
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Sxyfile = (string) Path to RokDoc sxy index file Petrel 2018 User Guide Before any inversion process it is crucial to make sure that input seismic is fit for purpose. No actual knowledge of the sxyįormat has been used in this function, only parsing based on observed This is a first-iteration and may be buggy. contour( X, Y, data, levels = levels, colors = color, linewidth = 2.0)ĭump the segy file path which is associated with a RokDoc index (sxy) file. arange( cont_min, cont_max + cont_inc, cont_inc)Ĭs = ax. # Build 2D arrays of bin centre coordinates for plotting # Build 1D arrays with bin centre coordinates Make sure to import this using the followingĪx = fig.add_subplot(111, projection='3d') loadtxt( infile, skiprows = 13)ĭef plot_2d_pdf( ax, pdf, cont_inc = - 1, color = 'b'): linspace( bin_centers, bin_centers, num_bins * 10)Ĭounts_norm_fine = counts_fine / np. float32)į = interp1d( bin_centers, counts, kind = 'cubic', bounds_error = None, fill_value = 'extrapolate')īin_centers_fine = np. gradient (lithostatic gradient) using Equation (2) (Rokdoc training manual). arange( num_bins + 1) * bin_width + mid_bin_min - bin_width / 2Ĭounts = np. The petrophysical data were evaluated using Ikons Science Rokdoc software. arange( num_bins) * bin_width + mid_bin_minīin_edges = np. nonzero( buf != - 999.25) # ignore horizon nulls # 2D numpy array corresponding to inline/crosslines # map horizon values from the imported columnar arrangement to a
#ROKDOC MANUAL MANUALS#
Two manuals bound together, Part I is a fifth edition published in 1973. # read the RokDoc horizon export ASCII file Analysis of geological data using ROKDOC, a Fortran IV package for the I.B.M. # build a 2D array to store horizon values # calculate number of inlines and crosslines This script expectsĬolumns for Inline, Crossline, UMTX, UTMY, and Attribute value Learn more about bidirectional Unicode charactersĪuralib module containing helper functions for reading data from RokDoc exports.ĭef load_horizon_3d( infile, il_min, il_max, xl_min, xl_max):įunction to load a 3D horizon exported from RokDoc. The RokDoc package was used for the estimation of overburden pressure, normal compaction trend generation, selection of. To review, open the file in an editor that reveals hidden Unicode characters.
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