Thinknowlogy is grammar-based software, designed to utilize the Natural Laws of Intelligence in grammar, in order to create intelligence through natural language in software. This is demonstrated by programming in natural language, reasoning in natural language and drawing conclusions (more detailed than scientific solutions), making assumptions (with self-adjusting level of uncertainty), asking questions (about gaps in the knowledge), and detecting conflicts in the knowledge. It builds semantics autonomously (with no vocabularies or words lists), detecting some cases of semantic ambiguity. It is multi-grammar, proving that Natural Laws of Intelligence are universal.
FísicaLab is an educational application to solve physics problems. The problems are set up by adding elements from the palette to a chalkboard and entering the data for each element. The elements are objects such as blocks, pulleys, motors, and forces. It can use the SI and English unit systems, scientific notation, and many conversion factors. The types of problems that can be solved are kinematics of particles (including circular motion), static analysis of particles and rigid bodies in 2D, dynamic analysis of particles in 2D (excluding the dynamics of circular motion), heat, calorimetry, ideal gas, and expansion. The static and dynamic problems are entered by constructing the free body diagrams of the objects.
PathVisio is a bioinformatics tool that lets you do everything with biological pathway diagrams. PathVisio helps you organize biological information and lets you present or publish that information easily. You can create and draw pathways, export them to many image formats, annotate them with links to online biological databases such as Ensembl, Entrez or HMDB, and add comments and literature references from pubmed. PathVisio also lets you sort through high-throughput experimental data in pathway context. This is a much more pleasant way to present data than just a large table. You can import microarray, proteomics or metabolomics data. PathVisio has a plugin interface that lets users customize it to new analysis types, new visualization methods, and new pathway formats. PathVisio is compatible with WikiPathways.
GarlicSim is a platform for writing, running, and analyzing simulations. It is general enough to handle any kind of simulation: physics, game theory, epidemic spread, electronics, etc. GarlicSim aims to eliminate the need to write any boilerplate code that isn't directly related to the phenomenon you're simulating. GarlicSim defines a new format for simulations, called a simulation package and often abbreviated as simpack. The simpack contains all the code that define the simulated system, and is simply a Python package which defines a few special functions according to the GarlicSim simpack API. Simpack code may also be written in C. All of the tools that GarlicSim provides can be used to run simulations of all kinds of different domains.
PRPVis (Probabilistic Roadmap Planner Visualized) is a probability-based method for planning the movements of objects with several degrees of freedom, such as robots. The program PRPVis provides an interactive visualization of the algorithm intended for teaching the algorithm to students.
SLD Calculator is a GUI to calculate the characteristics of chemical compounds, especially the Neutron and X-Ray scattering length densities that are often required to know in scattering experiments. Furthermore, it offers internationalization support and is capable of switching the language at runtime.