Build Gear is a lightweight build tool for building embedded firmware. Its primary focus is to make it easy to create and maintain fully-customized embedded firmware. This is reflected in a straightforward commandline interface and support for easy-to-understand build files. The secondary focus is build performance and build integrity. Build Gear is easy to use and well-suited for rapid prototyping and product development of GNU/Linux firmware to be deployed in small-to-medium-sized embedded systems.
vxref provides integration of the xref tool into vim. The xref tool is a cross referencing and refactoring tool with a free version available that parses C and Java code, and a paid version that parses C++. vxref brings solid auto-completion (as opposed to all sorts of flakey varieties such as omni-complete) and accurate code browsing with scope information to vim.
The Hungarian algorithm solves the assignment problem. It was developed by Harold Kuhn and reworked by James Munkres, and so it is also known as the Kuhn-Munkres algorithm. Kuhn-Munkres is used inside assignment problem solver applications. An instance generator application creates an input file for the solver. A checker application verifies the solution computed by the solver. A bash script compiles and executes these apps.
depfinder finds the dependencies of Slackware packages. The dependency list can be output to stdout, to a .dep text file without version information, or to a slack-required file with version information. depfinder is very fast; its speed is mainly due to the C++ code that is used in depfinder to find in which package each individual library is included. It also has support for running multiple jobs, which makes it a lot faster when used with multiple CPUs/cores. depfinder supports detecting dependencies of binary files compiled with languages such as C or C++ and it can also detect Python dependencies.
oVirt is a small host image that provides libvirt service and hosts virtual machines (oVirt Node) and a Web-based virtual machine management console (oVirt Server Suite). It is built using existing open source components (libvirt, kvm, collectd, Ruby on Rails, PostgreSQL, and freeIPA). Presently, the oVirt Server Suite only manages the oVirt Node, but the goal is to be able to manage other node types and hypervisors in the future.
Eggy is an IDE that includes syntax highlighting, template features, options for compiling and running your code, auto completion, and more. Eggy's distinguishing feature is its support for group projects, which allows users from around the world to connect to each other and work together on a project and see live changes being made. Users can communicate through the chat mechanism, add, remove, and rename files to and from the project, sync files, and exploit other useful features. Eggy supports many languages, including C++, Python, Perl, Ruby, shell scripting, and others.
Spindown is a daemon to spin down idle disks and thus save energy and give the disks a longer lifetime. It also works with USB disks and hot-swappable disks because it uses the device ID to identify the disk instead of the device name (such as hda or sdb). This means that it doesn't matter if the disk is swapped while the daemon is running.
SAOTrace is a suite of software designed to simulate the as-built performance of grazing-angle X-ray optics using the ray-tracing approach. It is derived from portions of the NASA OSAC (Optical Surface Analysis Code) software suite. It can model nested conical as well as flat optical designs, and includes the ability to model arbitrary support structures and baffles. It can model non-ideal multi-layer reflective coatings as well as scattering from the optical surfaces.
The Open Computer Forensics Architecture (OCFA) is a modular computer forensics framework to automate the digital forensic process, to speed up the investigation and give tactical investigators direct access to the seized data through an easy to use search and browse interface. The architecture forms an environment where existing forensic tools and libraries can be easily plugged into the architecture and can thus be made part of the recursive extraction of data and metadata from digital evidence. It aims to be highly modular, robust, fault tolerant, recursive, and scalable in order to be usable in large investigations that spawn numerous terabytes of evidence data and cover hundreds of evidence items.