The WiKID Strong Authentication System is a highly scalable, secure two-factor authentication system. It is simple to implement and maintain, allows users to be validated automatically, requires no hardware tokens, has a simple API for application support (via Ruby, PHP, Java, COM, Python, etc.), supports multiple domains, and supports replication for fault tolerance and scalability. It also supports mutual /host and transaction authentication, wireless tokens only domains, locked tokens (to your PC), anti-keystroke logger keypad PIN entry, etc.
Rbmhshow seeks to provide an efficient and lightweight MIME- capable command-line MH mail environment, leveraging existing applications wherever possible. It is a flexible alternative to the standard MH mhl and mhshow applications. MIME messages are displayed in a single continuous less session, with non-plaintext components (e.g. HTML, Word, JPEG) converted to text by the appropriate utility. PGP and S/ MIME signatures are automatically validated, headers and separators are coloured, and the less prompt displays information about the current mail. Command keys are then provided within less to perform common operations, such as replying to, refiling or deleting mail, moving to the next message, etc.
GraphicsMagick is a robust collection of tools and libraries which support reading, writing, and manipulating an image in over 90 major formats including popular formats like DPX, DICOM, BMP, GIF, JPEG, JPEG-2000, PDF, PNG, PNM, SVG, and TIFF. A high-quality 2D renderer is included, which provides a subset of SVG capabilities. C, C++, Perl, Tcl, and Ruby are supported. Originally based on ImageMagick, GraphicsMagick focuses on performance, minimizing bugs, and providing stable APIs and ABIs. It runs on all modern variants of Unix, Windows, and Mac OS X.
Scientists have to deal with a great amount of experimental data of different kinds, often assorted with parameters (the conditions of the experiments). It is often difficult to remember the results and conditions of all experiments. SciYAG aims at make this task easier by letting you organize scientific data along with experimental conditions. It provides fast display/overlay of data and a search engine ("When did I do this experiment under these conditions?").