Result for 1D9D0AEEED4C29E62DD2B9923E92C937D783ECE0

Query result

Key Value
FileName./usr/lib64/python3.6/site-packages/pyfftw/interfaces/__pycache__/cache.cpython-36.pyc
FileSize6786
MD5DC2F547D9E5D37D8C2A5EB1CC9E3F386
SHA-11D9D0AEEED4C29E62DD2B9923E92C937D783ECE0
SHA-256F576CD2DBD229D4D20ED3CEB6D2CD3A6900C600C4D4DC20C2A042AC1EF5FFAE2
SSDEEP192:YVgnLiWsMiHinhVAdb9z34jge2t7j8iviIxtE+:WgnLi7MiHinhqdBzojgeyiIxtE+
TLSHT198E194A21B426B3BF9E7F1B0805F23B0D7238537A36561A1B44DC8BE1B0B9C04978BD5
hashlookup:parent-total1
hashlookup:trust55

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Parents (Total: 1)

The searched file hash is included in 1 parent files which include package known and seen by metalookup. A sample is included below:

Key Value
MD5323506CEF08B4F307635C54DDC7F9BB9
PackageArchx86_64
PackageDescriptionpyFFTW is a pythonic wrapper around the FFTW libary. An interface for all the possible transforms that FFTW can perform is provided. Both the complex DFT and the real DFT are supported, as well as arbitrary axes of abitrary shaped and strided arrays, which makes it almost feature equivalent to standard and real FFT functions of ``numpy.fft`` (indeed, it supports the ``clongdouble`` dtype which ``numpy.fft`` does not). Operating FFTW in multithreaded mode is supported. A comprehensive unittest suite can be found with the source on the github repository.
PackageNamepython3-pyFFTW
PackageReleaselp153.12.2
PackageVersion0.12.0
SHA-13C589F977F2F009B04FBD46877866E3E44269CD8
SHA-256AF29652EC712FEF67868A7736553A35F5709154282C992B7FC51B30DD809CF68