Gringotts is a small utility that allows you to jot down sensitive data (passwords, PINs, small files, etc.) in an easy-to-read, easy-to-access, and most of all very secure form. It lets the user choose from among eight strong encryption algorithms (RIJNDAEL-128, RIJNDAEL-256, SERPENT, TWOFISH, CAST-256, SAFER+, LOKI97, 3DES), two hashing algorithms (SHA1, RIPEMD 160), and two compression techniques (ZLib and BZip2) with four compression ratios. It allows the user to use any file or an entire floppy disk as a password, as an alternative to the usual text string.
Paperbox is a document browser. It lets you nicely view your ebooks, office and text documents and organize them by tags. Relying on Tracker, it is able to instantly discover all documents on your desktop and present them in a convenient way. Tags and other metadata are shared across all Tracker-based applications.
The Launcher is an innovative GNOME panel applet or stand-alone application launcher automatically adapting to your habits. The ultimate goal is to make it possible to run any application with as few clicks as possible. This means tracking your favorite applications, and not forcing you to mark or organize them by hand. Preferences change with time, and The Launcher responds to that automatically. It delivers a simple, clean, and usable interface with advanced features like 'search as you type' and 'smart search', and requires zero configuration effort. It should be especially handy on touch screens and in keyboard-only scenarios.
GLP-Solve is a visual application for the resolution of problems of the scope of linear programming. It consists of a graphical interface for the linear programming software LP-Solve. This project tries to increase the usability of the LP-Solve tool with a familiar graphical interface, as well as with integration with the GNOME desktop.
Pidgin-paranoia is a plugin for Pidgin (formerly known as Gaim) that provides information-theoretically secure encrypted conversations using one-time pads. Because the plugin uses a one-time pad where the secret key has the same length as the message and the key is only used once, the encryption is information-theoretically secure. This means that from the encrypted messages the contents of the messages are not revealed. In short: If you use truly random numbers to generate the key files, and if you keep them perfectly secret, one-time pads can not be broken.