How to Install and Uninstall libaec.x86_64 Package on Red Hat Enterprise Linux 8 (RHEL 8)
Last updated: October 05,2024
1. Install "libaec.x86_64" package
Please follow the steps below to install libaec.x86_64 on Red Hat Enterprise Linux 8 (RHEL 8)
$
sudo dnf update
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$
sudo dnf install
libaec.x86_64
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2. Uninstall "libaec.x86_64" package
This is a short guide on how to uninstall libaec.x86_64 on Red Hat Enterprise Linux 8 (RHEL 8):
$
sudo dnf remove
libaec.x86_64
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$
sudo dnf autoremove
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3. Information about the libaec.x86_64 package on Red Hat Enterprise Linux 8 (RHEL 8)
Last metadata expiration check: 0:23:34 ago on Mon Feb 26 15:59:38 2024.
Available Packages
Name : libaec
Version : 1.0.2
Release : 3.el8
Architecture : x86_64
Size : 39 k
Source : libaec-1.0.2-3.el8.src.rpm
Repository : ubi-8-codeready-builder-rpms
Summary : Adaptive Entropy Coding library
URL : https://gitlab.dkrz.de/k202009/libaec
License : BSD
Description : Libaec provides fast loss-less compression of 1 up to 32 bit wide
: signed or unsigned integers (samples). The library achieves best
: results for low entropy data as often encountered in space imaging
: instrument data or numerical model output from weather or climate
: simulations. While floating point representations are not directly
: supported, they can also be efficiently coded by grouping exponents
: and mantissa.
:
: Libaec implements Golomb Rice coding as defined in the Space Data
: System Standard documents 121.0-B-2 and 120.0-G-2.
:
: Libaec includes a free drop-in replacement for the SZIP
: library (http://www.hdfgroup.org/doc_resource/SZIP).
Available Packages
Name : libaec
Version : 1.0.2
Release : 3.el8
Architecture : x86_64
Size : 39 k
Source : libaec-1.0.2-3.el8.src.rpm
Repository : ubi-8-codeready-builder-rpms
Summary : Adaptive Entropy Coding library
URL : https://gitlab.dkrz.de/k202009/libaec
License : BSD
Description : Libaec provides fast loss-less compression of 1 up to 32 bit wide
: signed or unsigned integers (samples). The library achieves best
: results for low entropy data as often encountered in space imaging
: instrument data or numerical model output from weather or climate
: simulations. While floating point representations are not directly
: supported, they can also be efficiently coded by grouping exponents
: and mantissa.
:
: Libaec implements Golomb Rice coding as defined in the Space Data
: System Standard documents 121.0-B-2 and 120.0-G-2.
:
: Libaec includes a free drop-in replacement for the SZIP
: library (http://www.hdfgroup.org/doc_resource/SZIP).
4. References on Red Hat Enterprise Linux 8 (RHEL 8)
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