[Telecommunications] A Python package for cyclic redundancy check (CRC) using polynomial long division in GF(2).
Homework/project in Fundamentals of Telecommunications (13E033OTR) at the University of Belgrade, School of Electrical Engineering.
This module provides users with cyclic redundancy check tooling under the crc_otr package - a Python library for cyclic redundancy check (CRC) using polynomial long division in GF(2).
crc_otr can be installing using pip with:
pip install git+https://github.com/uros-bojanic/cyclic-redundancy-check.git
crc_decode(sequence, generator) - Decodes a binary number using the provided generator polynomial, and returns a boolean value indicating whether there are errors in the original information sequence or not, based on the result of a cyclic redundancy check. If generator is not passed as an argument, CRC32 is used by default.
>>> crc_decode(0b11011010000, 0b10101)
False
>>> crc_decode(0b11011011011, 0b10101)
True
>>> crc_decode(0b1101010011110100101111101011011100111001000011010001)
True
crc_encode(sequence, generator) - Encodes a binary number using the provided generator polynomial, and returns the resulting (encoded) message. The original binary sequence is expanded (padding is added), and the appropriate suffix is added as a result of the cyclic redundancy check. If generator is not passed as an argument, CRC32 is used by default.
>>> crc_encode(0b1101101, 0b10101)
0b11011011011
>>> crc_encode(0b01100111, 0b11001)
0b11001110010
>>> crc_encode(0b11101010111010100110010101111010110101)
0b1110101011101010011001010111101011010111000111000111001000111111010010
Payload (data block) - original information sequence:
i(x) = 1101101
Generator polynomial - binary representation (reversed):
g(x) = 10101
GF(2) polynomial division remainder r(x) = i(x) % g(x):
r(x) = 1011
For CRC, r(x) is used as a check sequence for given i(x) and g(x). Note: this package uses the "reversed" polynomial representation, as follows...
Encoded information sequence (i(x) || r(x)):
e(x) = 11011011011
11011010000 -> information sequence
^10101 -> generator polynomial
-----
011100
^10101
-----
010011
^10101
-----
001100
^00000
-----
011000
^10101
-----
011010
^10101
-----
011110
^10101
-----
01011
rem. = 1011 (error detected)
11011011011 -> information sequence
^10101 -> generator polynomial
-----
011100
^10101
-----
010011
^10101
-----
001101
^00000
-----
011010
^10101
-----
011111
^10101
-----
010101
^10101
-----
00000
rem. = 0000 (no errors)
test.py provides a python program to manually test CRC on 3 sets of data blocks. To start manual test, run:
python test.py
Results of manual tests are provided as console output:
Decode (tests):
[ 11011010000] % [10101] -> False
[ 11011011011] % [10101] -> True
[ 100100000] % [ 1101] -> False
[ 100100001] % [ 1101] -> True
[ 11001110111] % [11001] -> False
[ 11001110010] % [11001] -> True
Encode (tests):
[ 1101101] % [10101] -> 11011011011 # True
[ 100100] % [ 1101] -> 100100001 # True
[ 1100111] % [11001] -> 11001110010 # True
benchmark.py provides a python program to automatically test and assess the performance of CRC using random information sequences, and a set of commonly used generator polynomials (available in generators.py). To start benchmark, run:
python benchmark.py
Results of benchmark are provided as console output, but are also conveniently available in benchmark.csv file.
| Name | PolynomialDegree | SequenceLength | ExecutionTime |
|---|---|---|---|
| CRC-1 | 1 | 1 | 0.0 |
| CRC-1 | 1 | 2 | 0.0 |
| ... | ... | ... | ... |
| CRC-64-ISO | 64 | 16384 | 21.94741 |
| CRC-64-ISO | 64 | 32768 | 57.79054 |
performance.py provides a python program to analyze and plot CRC benchmark results. To visualize CRC performance, run:
python performance.py
Results of the performance analysis are provided as 3D plot (performance.gif), with all PNG figures (frames) also available in benchmark_plot/ folder.
gui.py provides a python program to enable interactive user input and CRC encoding/decoding. To start GUI app, run:
python gui.py
A screenshot of the Tk GUI application upon launching on a Windows 11 machine is available in gui.png.
