How to Install and Uninstall python312-PyECLib Package on openSuSE Tumbleweed
Last updated: November 16,2024
1. Install "python312-PyECLib" package
This tutorial shows how to install python312-PyECLib on openSuSE Tumbleweed
$
sudo zypper refresh
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$
sudo zypper install
python312-PyECLib
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2. Uninstall "python312-PyECLib" package
Please follow the instructions below to uninstall python312-PyECLib on openSuSE Tumbleweed:
$
sudo zypper remove
python312-PyECLib
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3. Information about the python312-PyECLib package on openSuSE Tumbleweed
Information for package python312-PyECLib:
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Repository : openSUSE-Tumbleweed-Oss
Name : python312-PyECLib
Version : 1.6.1-1.12
Arch : x86_64
Vendor : openSUSE
Installed Size : 170.4 KiB
Installed : No
Status : not installed
Source package : python-PyECLib-1.6.1-1.12.src
Upstream URL : https://git.openstack.org/cgit/openstack/pyeclib/
Summary : Simple interface for implementing erasure codes
Description :
This library makes use of Jesasure for Reed-Solomon as implemented by the
liberasurecode library and provides its' own flat XOR-based erasure code
encoder and decoder. Currently, it implements a specific class of HD
Combination Codes (see "Flat XOR-based erasure codes in storage systems:
Constructions, efficient recovery, and tradeoffs" in IEEE MSST 2010). These
codes are well-suited to archival use-cases, have a simple construction and
require a minimum number of participating disks during single-disk
reconstruction (think XOR-based LRC code).
------------------------------------------
Repository : openSUSE-Tumbleweed-Oss
Name : python312-PyECLib
Version : 1.6.1-1.12
Arch : x86_64
Vendor : openSUSE
Installed Size : 170.4 KiB
Installed : No
Status : not installed
Source package : python-PyECLib-1.6.1-1.12.src
Upstream URL : https://git.openstack.org/cgit/openstack/pyeclib/
Summary : Simple interface for implementing erasure codes
Description :
This library makes use of Jesasure for Reed-Solomon as implemented by the
liberasurecode library and provides its' own flat XOR-based erasure code
encoder and decoder. Currently, it implements a specific class of HD
Combination Codes (see "Flat XOR-based erasure codes in storage systems:
Constructions, efficient recovery, and tradeoffs" in IEEE MSST 2010). These
codes are well-suited to archival use-cases, have a simple construction and
require a minimum number of participating disks during single-disk
reconstruction (think XOR-based LRC code).