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A tool for exchanging data between SEG-Y format and NumPy array inside Python environment

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A SEG-Y tool developed by Computational Interpretation Group (CIG)

cigsegy is a tool for exchanging data between SEG-Y format and NumPy array inside Python environment.

It can be used to read and convert a SEG-Y format data into a Numpy array, even if the SEG-Y format data is missing some traces or its inline/crossline step is not equal to 1.

It can also be used to create a SEG-Y format data from a Numpy array. In this mode, users can use headers from a existed SEG-Y file or create new headers by setting some parameters.

Tutorial and reference documentation is provided at cigsegy.readthedocs.io. And the source code is always available at github.com/JintaoLee-Roger/cigsegy.

Core Features

  • Fast (Implemented in c++)
  • python wraping and numpy array supports
  • dealing with normal and irregular SEG-Y volume [1].
  • creating a SEG-Y file using the existed header of a SEG-Y

Quick Start

  1. Install cigsegy via PyPi
pip install cigsegy
  1. Print the 3200 bytes textual header of a SEG-Y file
>>> import cigsegy
>>> cigsegy.textual_header('rogan.sgy')
# C01 CLIENT: STUART PETROLEUM LTD    AREA:COOPER BASIN   SOUTH AUSTRALIA
# ...
# C06 INLINE RANGE: 360 - 1684(2)  CROSSLINE RANGE 1764 - 2532(1)
# C07 -------------PROCESSING FLOW---------------
# ...
# C35  DESC                   BYTE LOCATION       FORMAT
# C36  3D INLINE NUMBER        9- 12             32 BIT INTEGER
# C37  3D CROSSLINE  NUMBER   21- 24             32 BIT INTEGER
# C38  CDP_X                  73- 76             32 BIT INTEGER
# C39  CDP_Y                  77- 80             32 BIT INTEGER
# C40

You can get some key information to read the SEG-Y file, such as inline location is 9 (C36), crossline location is 21 (C37), X location is 73 (C38), Y location is 77 (C39), inline step is 2 (C06), crossline step is 1 (C06).

  1. Scan the SEG-Y file and get some meta information
>>> cigsegy.metaInfo('rogan.sgy', iline=9, xline=21, istep=2, xstep=1, xloc=73, yloc=77)
# In python, the shape is (n-inline, n-crossline, n-time) = (663, 769, 1001).

# shape: (n-time, n-crossline, n-inline) = (1001, 769, 663)
# sample interval: 4000, data format code: 4-bytes IBM floating-point
# inline range: 360 - 1684, crossline range: 1764 - 2532
# interval of inline: 35.0, interval of crossline: 17.5, time start: 0
# inline field: 9, crossline field: 21
# inline step: 2, crossline step: 1
# Is regular file (no missing traces): false

You will get some information about this SEG-Y file, such as, the data shape, intervals, data format ...

Note

If you are unsure about the values of some parameters, you can ignore them and cigsegy will try to guess them automatically.

>>> cigsegy.metaInfo('fx.segy', iline=9, xline=21) # ignore istep, xstep, ...
  1. Read the SEG-Y

Please note that the shape is like (n-inlines, n-crosslines, n-time_samples)

>>> d = cigsegy.fromfile('rogan.sgy', iline=9, xline=21, istep=2, xstep=1)
>>> d.shape
# (663, 769, 1001)

If you need a binary file without any headers, i.e., save the numpy array

>>> cigsegy.tofile('rogan.sgy', 'out.dat', iline=9, xline=21, istep=2, xstep=1)

Note

When using cigsegy.tofile(), you don't have to worry about running out of memory. Therefore, this function is very useful when dealing with huge files.

  1. Create a SEG-Y using a numpy array and headers from another SEG-Y file
There is often such a workflow:
  1. Display SEG-Y format data orig.segy in specialized software, such as Petrel.
  2. Use Python code to process this data and obtain new data afterprocess, which is in NumPy array format
  3. To display this processed data in specialized software, it needs to be converted back to SEG-Y format and use the headers from the original data, i.e., using the NumPy array afterprocess and the header of orig.segy to create a new SEG-Y file out.segy.
# assume the iline/xline/istep/xstep of **orig.segy** are 9/21/1/1
>>> cigsegy.create_by_sharing_header('out.segy', 'orig.segy', afterprocess, \
    iline=9, xline=21, istep=1, xstep=1)
  1. Create a SEG-Y using a numpy array and some parameters
# d is a numpy array, d.shape == (n-inlines, n-crosslines, n-time)
>>> cigsegy.create('out.segy', d, format=5, start_time=0, iline_interval=15, ...)
  1. Access the SEG-Y file as a 3D numpy array, without reading the whole file into memory
>>> from cigsegy import SegyNP
>>> d = SegyNP('rogan.sgy', iline=9, xline=21)
>>> d.shape # (ni, nx, nt), use as a numpy array, 3D geometry
>>> sx = d[100] # the 100-th inline profile
>>> sx = d[100:200] # return a 3D array with shape (100, nx, nt)
>>> sx = d[:, 200, :] # the 200-th crossline profile
>>> sx = d[:, :, 100] # the 100-th time slice, note, it may be slow if the file is large
>>> sx.min(), sx.max()
# get the min and max value, but they are evaluated from a part of data,
# so they may not be the real min and max value
>>> sx.trace_cout # get the number of traces for the file

License

cigsegy is provided under a MIT license that can be found in the LICENSE file. By using, distributing, or contributing to this project, you agree to the terms and conditions of this license.

TODO

  • Add convenient function to support unsorted prestack gathers.

Citations

If you find this work useful in your research and want to cite it, please consider use this:

Plain Text

Li, Jintao. "CIGSEGY: A tool for exchanging data between SEG-Y format and NumPy array inside Python environment". URL: https://github.com/JintaoLee-Roger/cigsegy

BibTex

@misc{cigsegy,
author = {Li, Jintao},
title = {{CIGSEGY}: A tool for exchanging data between SEG-Y format and NumPy array inside Python environment},
howpublished = {\url{https://github.com/JintaoLee-Roger/cigsegy}},
}

[1]Here irregular SEG-Y volume means the area covered by a SEG-Y file is not a rectangle but a polygon (meaning that some lines are missing some traces), or its inline/crossline intervals are not 1.

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