Classical and quantum semiconductor device simulation
The ViennaWD package provides a selection of simulation tools supporting classical and quantum approaches for semiconductor device simulation.
Scaning Electron Microscope emulation. Software should emulate electron tracks in different materials, calculate statistics and suppose the surface contour.
A tool for visualization, classification, and quantification of three-dimensional secondary ion mass spectrometry data.
What Is This In converts amounts in a selection of units in to the similar amount in an other unit... or said in plain English: it converts meters into miles.
For starters a DirectX (Direct3D-Panel) A suite to display simple x/y/measurements, which has to be fast, because those analogue position encoders never "rest" at the same position and we want to see our table-position in realtime (mswin-realtime)
XnaHavok is a C# port of Havok for use within Xna. This is being actively worked on, so check back for new releases.
Turbine Controller Software. aTCU - Advanced Turbine Controller Unit for a propriotary Hardware based around the ATMEL Mega 128 Micro Controller.
A set of computational chemistry modules and programs to perform ab initio calculations of various properties of small molecules. The system will use GRID technology for large computations. The system will use C++ and Qt, running on Win32 and Linux
Bergamote is a free Finite Element Modeling software
Assetto Corsa BMW M3 E46 CSL
Assetto Corsa BMW M3 E46 CSL
Study of clouds morphology
A simple MATLAB implementation of Wilsons NRG-method
At the moment this code can calculate free electron gas and the SIAM (single-impurity-anderson-model) In this version, the only thing computed by the code is the energy flow. There is no calculation for any thermodynamic quantaties. The implementation is very slow and rather for educational purposes to get an idea of the NRG-method. For example: it is not considered, that only matrix elements between states, whos occupation number differs by one and S_z differs by 1/2. There is only implicit parallelisation implemented by vectorizing the time consuming parts of the code. This code is licensed under the CC BY-SA 3.0 license (http://creativecommons.org/licenses/by-sa/3.0/, http://creativecommons.org/licenses/by-sa/3.0/legalcode)
Diffraction related calculations in Fortran 2003
full snapshots of CRYSFML code and parts of SXTALSOFT code
flexible analysis of irradiation yields in nucelar spectroscopy
This program is for easy, fast and intuitive visualization and analysis of nuclear spectroscopic data. The program's functionality can be extended with plugins.
An interactive tool to study Fourier Series and related physics phenomenons, using open source/free sorftware.
Genvlin is an easy to use graphical dataplotting environment. It also provides direct access to the data via scripting and a console. You can easily import, export, change, plot, ... all the data.
A program to help physics students understand Kinematics and Dynamics. Writen in Python.
Jet-finder in heavy-ion collisions
A web database for experimental results of research
A database with a web interface for storing the experimental results of research, aimed at ease of adding new types of data. Goal is to make adding as simple as one day for an unexperienced in programming scientist to add a new type of data similar to an existing type, by preparing two - three files analogues to the existing ones. An experienced programmer should need only one day to one week for adding a totally new kind of data like arrays with more dimensions that was available before.
Libquadratic provides methods for automatic numerical integration with various backends, strategies, error approximation models and mappings with special emphasis on line-integrals in the complex plane. Language bindings are currently in C++.
libspace abstracts discretization of L^p and H^1 function spaces. The purpose of this is to let programmers to write numerical code that will run with both uniform finite difference grids, finite elements libraries of various stripes, etc.
calculate math expression(string), for example: double ret = Cal("1+2"), ret= Cal("Pi+ln(e)+f(x,y)÷x+φ+φ0+φ1"). Features
This software is an API that permit to manipulate MEF's data as objects.