Recent Projects

davidchansen/ISMRMRD

The ISMRMRD format combines a mix of flexible data structures (XML header) and fixed structures (equivalent to C-structs) to represent MRI data. In addition, the ISMRMRD format also specifies an image header for storing reconstructed images and the accompanying C++ library provides a convenient way of writing such images into HDF5 files along with generic arrays for storing less well defined data structures, e.g. coil sensitivity maps or other calibration data.
  • Fedora 38 : x86_64
  • Fedora 39 : x86_64
  • Fedora 40 : x86_64
  • Fedora rawhide : x86_64

jamacku/rust-ifcfg-devname

Udev helper utility that provides network interface naming using kernel cmdline and ifcfg configuration.
  • Fedora 38 : x86_64
  • Fedora 39 : x86_64
  • Fedora 40 : x86_64
  • Fedora rawhide : x86_64

dherrera/opentoonz

OpenToonz is a 2D animation software published by DWANGO. It is based on Toonz Studio Ghibli Version, originally developed in Italy by Digital Video, Inc., and customized by Studio Ghibli over many years of production.
  • Fedora 38 : aarch64, ppc64le, s390x, x86_64
  • Fedora 39 : aarch64, ppc64le, s390x, x86_64
  • Fedora 40 : aarch64, ppc64le, s390x, x86_64
  • Fedora rawhide : aarch64, ppc64le, s390x, x86_64

davidgf/utsushi

Utsushi Next Generation Image Acquisition
  • Fedora 38 : aarch64, x86_64
  • Fedora 39 : aarch64, x86_64
  • Fedora 40 : aarch64, x86_64
  • Fedora eln : aarch64, x86_64
  • Fedora rawhide : aarch64, x86_64

imker25/samba-exporter

A Prometheus exporter for statistic data of the samba file server. Find more information on the projects Homepage
  • Fedora 38 : x86_64
  • Fedora 39 : x86_64
  • Fedora 40 : x86_64

sicherha/mold

Packaging playground for mold - a modern linker
  • EPEL 8 : aarch64, ppc64le, s390x, x86_64
  • EPEL 9 : aarch64, ppc64le, s390x, x86_64
  • Fedora 38 : aarch64, i386, ppc64le, s390x, x86_64
  • Fedora 39 : aarch64, ppc64le, s390x, x86_64
  • Fedora 40 : aarch64, ppc64le, s390x, x86_64
  • Fedora rawhide : aarch64, ppc64le, s390x, x86_64

frostyx/disabling-modules-zabbix

Description not filled in by author. Very likely personal repository for testing purpose, which you should not use.
  • EPEL 8 : x86_64

cooktheryan/microshift

Microshift is a research project that is exploring how OpenShift1 Kubernetes can be optimized for small form factor and edge computing. Edge devices deployed out in the field pose very different operational, environmental, and business challenges from those of cloud computing. These motivate different engineering trade-offs for Kubernetes at the far edge than for cloud or near-edge scenarios. Microshift's design goals cater to this: make frugal use of system resources (CPU, memory, network, storage, etc.), tolerate severe networking constraints, update (resp. roll back) securely, safely, speedily, and seamlessly (without disrupting workloads), and build on and integrate cleanly with edge-optimized OSes like Fedora IoT and RHEL for Edge, while providing a consistent development and management experience with standard OpenShift. We believe these properties should also make Microshift a great tool for other use cases such as Kubernetes applications development on resource-constrained systems, scale testing, and provisioning of lightweight Kubernetes control planes. Watch this end-to-end MicroShift provisioning demo video to get a first impression of MicroShift deployed onto a RHEL for edge computing device and managed through Open Cluster Management. Note: Microshift is still early days and moving fast. Features are missing. Things break. But you can still help shape it, too. 1) more precisely OKD, the Kubernetes distribution by the OpenShift community
  • Centos-stream 8 : aarch64, x86_64
  • Centos-stream 9 : aarch64, x86_64
  • EPEL 8 : x86_64
  • Fedora 38 : aarch64, x86_64
  • Fedora 39 : aarch64, x86_64
  • Fedora 40 : aarch64, x86_64
  • Fedora rawhide : aarch64, x86_64

mangelajo/microshift

Microshift is a research project that is exploring how OpenShift1 Kubernetes can be optimized for small form factor and edge computing. Edge devices deployed out in the field pose very different operational, environmental, and business challenges from those of cloud computing. These motivate different engineering trade-offs for Kubernetes at the far edge than for cloud or near-edge scenarios. Microshift's design goals cater to this: make frugal use of system resources (CPU, memory, network, storage, etc.), tolerate severe networking constraints, update (resp. roll back) securely, safely, speedily, and seamlessly (without disrupting workloads), and build on and integrate cleanly with edge-optimized OSes like Fedora IoT and RHEL for Edge, while providing a consistent development and management experience with standard OpenShift. We believe these properties should also make Microshift a great tool for other use cases such as Kubernetes applications development on resource-constrained systems, scale testing, and provisioning of lightweight Kubernetes control planes. Watch this end-to-end MicroShift provisioning demo video to get a first impression of MicroShift deployed onto a RHEL for edge computing device and managed through Open Cluster Management. Note: Microshift is still early days and moving fast. Features are missing. Things break. But you can still help shape it, too. 1) more precisely OKD, the Kubernetes distribution by the OpenShift community
  • Centos-stream 8 : aarch64, x86_64
  • Centos-stream 9 : aarch64, x86_64
  • EPEL 8 : aarch64, x86_64
  • EPEL 9 : aarch64, x86_64
  • Fedora 38 : aarch64, x86_64
  • Fedora 39 : aarch64, x86_64
  • Fedora 40 : aarch64, x86_64
  • Fedora rawhide : aarch64, x86_64

ondramachacek/yggdrasil

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

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