Recent Projects

tinez/ost-stuff

Unofficial repo for stuff needed to run OST
  • EPEL 8 : x86_64
  • EPEL 9 : x86_64

@rpm-software-management/tito

Description not filled in by author. Very likely personal repository for testing purpose, which you should not use.
  • EPEL 10 : x86_64
  • EPEL 7 : x86_64
  • EPEL 8 : x86_64
  • EPEL 9 : x86_64
  • Fedora 41 : x86_64
  • Fedora 42 : x86_64
  • Fedora 43 : x86_64
  • Fedora rawhide : x86_64

rfilo/libselinux-f32

Description not filled in by author. Very likely personal repository for testing purpose, which you should not use.

rwaltr/Chezmoi

A dotfile templating engine
  • Centos-stream 8 : aarch64, x86_64
  • EPEL 7 : x86_64
  • EPEL 8 : aarch64, x86_64

ganto/lxc4

RPM packages for the latest LXC/LXD/Incus release. Spec file sources github.com: ganto/copr-lxc4
  • Fedora 41 : aarch64, ppc64le, s390x, x86_64
  • Fedora 42 : aarch64, ppc64le, s390x, x86_64
  • Fedora 43 : aarch64, ppc64le, s390x, x86_64
  • Fedora rawhide : aarch64, ppc64le, s390x, x86_64

nucleo/gstreamer

Obsoleted gstreamer for F32+
  • Fedora 41 : x86_64
  • Fedora 42 : x86_64
  • Fedora 43 : x86_64
  • Fedora rawhide : x86_64

elxreno/zswap-cli

Utility for controlling zswap parameters.
  • EPEL 7 : x86_64
  • Fedora 41 : x86_64
  • Fedora 42 : x86_64
  • Fedora 43 : x86_64
  • Fedora rawhide : x86_64

mhonek/sway-testing

Description not filled in by author. Very likely personal repository for testing purpose, which you should not use.
  • Fedora 41 : x86_64
  • Fedora 42 : x86_64
  • Fedora 43 : x86_64
  • Fedora rawhide : x86_64

atim/kmon

The kernel is the part of the operating system that facilitates interactions between hardware and software components. On most systems, it is loaded on startup after the bootloader and handles I/O requests as well as peripherals like keyboards, monitors, network adapters, and speakers. Typically, the kernel is responsible for memory management, process management, device management, system calls, and security. Applications use the system call mechanism for requesting a service from the operating system and most of the time, this request is passed to the kernel using a library provided by the operating system to invoke the related kernel function. While the kernel performs these low-level tasks, it's resident on a separate part of memory named protected kernel space which is not accessible by applications and other parts of the system. In contrast, applications like browsers, text editors, window managers or audio/video players use a different separate area of the memory, user space. This separation prevents user data and kernel data from interfering with each other and causing instability and slowness, as well as preventing malfunctioning application programs from crashing the entire operating system. There are different kernel designs due to the different ways of managing system calls and resources. For example, while monolithic kernels run all the operating system instructions in the same address space for speed, microkernels use different spaces for user and kernel services for modularity. Apart from those, there are hybrid kernels, nanokernels, and, exokernels. The hybrid kernel architecture is based on combining aspects of microkernel and monolithic kernels.
  • EPEL 7 : x86_64
  • EPEL 8 : x86_64
  • Fedora 41 : x86_64
  • Fedora 42 : x86_64
  • Fedora 43 : x86_64
  • Fedora rawhide : x86_64

davidsch/testing

testing only
  • Fedora rawhide : x86_64

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