Clarrhmos is a description language and simulator for myocardial structure and electrophysiology. Input to the program is a model file specifying types of cells, action potential shape, refractory period, 3D placement of the cells, relation of parameters to other functions, pacing, electrode placement. Output is a file describing depolarisation and repolarisation of the myocardium and electrograms. A graphic tool for interactive inspection of the output file is also included.
CTSim is a Computed Tomography simulator. It simulates the process of obtaining x-ray data around a phantom object. It then uses various reconstruction algorithms for reconstructing the original image. It supports animation of projection and reconstruction processes, 3-dimensional viewing using OpenGL as well as cross platform support using GTK and Win32.
E-Cell System is an object-oriented software suite for modelling, simulation, and analysis of large scale complex systems such as biological cells. It allows many components, driven by multiple algorithms with different timescales, to coexist. The core library is written in C++ with a Python binding, and frontend software uses Python.
nut is nutrition software to record what you eat and analyze your meals for nutrient composition. The database included is the latest USDA Nutrient Database for Standard Reference. This database contains values for vitamins, minerals, fats, calories, protein, carbohydrates, fiber, etc., and includes the essential polyunsaturated fats, Omega-3 and Omega-6. Nutrient levels are expressed as a percentage of the Daily Value, the familiar standard of food labeling in the United States, but also can be fully customized. Foods can be added from recipes or food labels, and nutrient intake can be graphed. The program is completely menu-driven and there are no commands to learn.
The VP7 Way Kool Project is a GTK application which simulates a laboratory experiment with radioactive nuclei. The user can choose between many predefined radioactive sources or create new ones. The number of decayed nuclei and the activity of the source can be determined with a built-in counter. The beam can be attenuated with shields of paper, aluminium, and/or lead.