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20 lines
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20 lines
1.5 KiB
Org Mode
#+title: Endianness
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#+date: "2020-07-10 23:30:27 +08:00"
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#+date_modified: "2020-09-09 05:23:55 +08:00"
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#+language: en
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- Tags :: [[file:2020-06-03-15-21-42.org][Computational processes]]
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Endianness refers to how bits are read and this depends on the underlying hardware architecture.
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[fn:: You can enforce endianness in software but oftentimes, it is not a good idea.]
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For example, given the following bit, 11010, this could be read as $(1\times2^{0}) + (1\times2^{1}) + (0\times2^{2}) + (1\times2^{3}) + (0\times2^{4})$ or $11$ with the first bit being the least significant also known as *little-endian*.
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On the other hand, this could also be read as $(0\times2^{0}) + (1\times2^{1}) + (0\times2^{2}) + (1\times2^{3}) + (1\times2^{4})$ or $26$ with the last bit being the least significant which we refer to as *big-endian*.
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[fn:: Endianness focuses on byte order, not bit order but it is best to give the simplest example.]
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Endianness can have subtle effects on various things — e.g., using binary data formats like [[https://fits.gsfc.nasa.gov/][FITS]] and [[https://www.hdfgroup.org/solutions/hdf5][HDF]] — like having the wrong endianness.
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To know the endianness of your machine, you can simply create a test number (preferably in binary) and check for the first few digits if it's little-endian — otherwise, it is big-endian.
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If you have Python installed, you can simply use [[https://docs.python.org/3/library/sys.html#sys.byteorder][~sys.byteorder~]] (e.g., ~python -c 'import sys; print(sys.byteorder)~).
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