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In Mageia/9/armv7hl: Source package of the current NVIDIA proprietary driver. Binary packages are named x11-driver-video-nvidia-newfeature.

In Mageia/9/aarch64: Source package of the current NVIDIA proprietary driver. Binary packages are named x11-driver-video-nvidia-newfeature.

In Mageia/9/x86_64: Source package of the current NVIDIA proprietary driver. Binary packages are named x11-driver-video-nvidia-newfeature.

In Mageia/9/x86_64: The kernel package contains the Linux kernel (vmlinuz), the core of your Mageia operating system. The kernel handles the basic functions of the operating system: memory allocation, process allocation, device input and output, etc. This kernel relies on in-kernel smp alternatives to switch between up & smp mode depending on detected hardware. To force the kernel to boot in single processor mode, use the "nosmp" boot parameter.

In Mageia/9/i586: The kernel package contains the Linux kernel (vmlinuz), the core of your Mageia operating system. The kernel handles the basic functions of the operating system: memory allocation, process allocation, device input and output, etc. This kernel relies on in-kernel smp alternatives to switch between up & smp mode depending on detected hardware. To force the kernel to boot in single processor mode, use the "nosmp" boot parameter.

In Mageia/9/armv7hl: The kernel package contains the Linux kernel (vmlinuz), the core of your Mageia operating system. The kernel handles the basic functions of the operating system: memory allocation, process allocation, device input and output, etc. This kernel relies on in-kernel smp alternatives to switch between up & smp mode depending on detected hardware. To force the kernel to boot in single processor mode, use the "nosmp" boot parameter.

In Mageia/9/aarch64: The kernel package contains the Linux kernel (vmlinuz), the core of your Mageia operating system. The kernel handles the basic functions of the operating system: memory allocation, process allocation, device input and output, etc. This kernel relies on in-kernel smp alternatives to switch between up & smp mode depending on detected hardware. To force the kernel to boot in single processor mode, use the "nosmp" boot parameter.

In Mageia/9/x86_64: This kernel is compiled for desktop use, single or multiple i386 processor(s)/core(s), using HZ_1000, voluntary preempt, CFS cpu scheduler and cfq i/o scheduler. This kernel relies on in-kernel smp alternatives to switch between up & smp mode depending on detected hardware. To force the kernel to boot in single processor mode, use the "nosmp" boot parameter. NOTE: This kernel has no Mageia patches and no third-party drivers.

In Mageia/9/aarch64: This kernel is compiled for desktop use, single or multiple i386 processor(s)/core(s), using HZ_1000, voluntary preempt, CFS cpu scheduler and cfq i/o scheduler. This kernel relies on in-kernel smp alternatives to switch between up & smp mode depending on detected hardware. To force the kernel to boot in single processor mode, use the "nosmp" boot parameter. NOTE: This kernel has no Mageia patches and no third-party drivers.

In Mageia/9/i586: This kernel is compiled for desktop use, single or multiple i386 processor(s)/core(s), using HZ_1000, voluntary preempt, CFS cpu scheduler and cfq i/o scheduler. This kernel relies on in-kernel smp alternatives to switch between up & smp mode depending on detected hardware. To force the kernel to boot in single processor mode, use the "nosmp" boot parameter. NOTE: This kernel has no Mageia patches and no third-party drivers.

In Mageia/9/armv7hl: This kernel is compiled for desktop use, single or multiple i386 processor(s)/core(s), using HZ_1000, voluntary preempt, CFS cpu scheduler and cfq i/o scheduler. This kernel relies on in-kernel smp alternatives to switch between up & smp mode depending on detected hardware. To force the kernel to boot in single processor mode, use the "nosmp" boot parameter. NOTE: This kernel has no Mageia patches and no third-party drivers.

In Mageia/cauldron/i586: MessagePack is a fast, compact binary serialization format, suitable for similar data to JSON. This package provides CPython bindings for reading and writing MessagePack data.

In Mageia/cauldron/x86_64: MessagePack is a fast, compact binary serialization format, suitable for similar data to JSON. This package provides CPython bindings for reading and writing MessagePack data.

In Mageia/cauldron/i586: MessagePack is a binary-based efficient object serialization library. It enables to exchange structured objects between many languages like JSON. But unlike JSON, it is very fast and small.

In Mageia/cauldron/x86_64: MessagePack is a binary-based efficient object serialization library. It enables to exchange structured objects between many languages like JSON. But unlike JSON, it is very fast and small.

In Mageia/cauldron/x86_64: The OpenAI Python library provides convenient access to the OpenAI REST API from any Python 3.7+ application. The library includes type definitions for all request params and response fields, and offers both synchronous and asynchronous clients powered by httpx.

In Mageia/cauldron/i586: The OpenAI Python library provides convenient access to the OpenAI REST API from any Python 3.7+ application. The library includes type definitions for all request params and response fields, and offers both synchronous and asynchronous clients powered by httpx.

In Mageia/cauldron/i586: MusicBrainz Picard is the official MusicBrainz tagger, written in Python 3. Picard supports the majority of audio file formats, is capable of using audio fingerprints (PUIDs), performing CD lookups and disc ID submissions, and it has excellent Unicode support. Additionally, there are several plugins available that extend Picard's features. When tagging files, Picard uses an album-oriented approach. This approach allows it to utilize the MusicBrainz data as effectively as possible and correctly tag your music. For more information, see the illustrated quick start guide to tagging. Picard is named after Captain Jean-Luc Picard from the TV series Star Trek: The Next Generation.

In Mageia/cauldron/x86_64: MusicBrainz Picard is the official MusicBrainz tagger, written in Python 3. Picard supports the majority of audio file formats, is capable of using audio fingerprints (PUIDs), performing CD lookups and disc ID submissions, and it has excellent Unicode support. Additionally, there are several plugins available that extend Picard's features. When tagging files, Picard uses an album-oriented approach. This approach allows it to utilize the MusicBrainz data as effectively as possible and correctly tag your music. For more information, see the illustrated quick start guide to tagging. Picard is named after Captain Jean-Luc Picard from the TV series Star Trek: The Next Generation.

In Mageia/cauldron/i586: MD4C is C Markdown parser with the following features: * Compliance: Generally MD4C aims to be compliant to the latest version of CommonMark specification. Right now fully compliant to CommonMark 0.28. * Extensions: MD4C supports some commonly requested and accepted extensions. * Compactness: MD4C is implemented in one source file and one header file. * Embedding: MD4C is easy to reuse in other projects, its API is very straightforward: There is actually just one function, md_parse(). * Push model: MD4C parses the complete document and calls callback functions provided by the application for each start/end of block, start/end of a span, and with any textual contents. * Portability: MD4C builds and works on Windows and Linux, and it should be fairly simple to make it run also on most other systems. * Encoding: MD4C can be compiled to recognize ASCII-only control characters, UTF-8 and, on Windows, also UTF-16, i.e. what is on Windows commonly called just "Unicode". See more details below. * Permissive license: MD4C is available under the MIT license. * Performance: MD4C is very fast.