C++ implementation of the ZVTOP vertex finding algorithm for linear collider studies.
LUNUS software for generating 3D maps of diffuse scattering from macromolecular X-ray crystallography diffraction images. Also see http://lunus.sourceforge.net
Data Processing and Analysis for X-ray Spectroscopy and More
Larch is a scientific data processing language that is designed to be easy to use for novices and complete enough for advanced data processing and analysis. Larch provides a wide range of functionality for dealing with arrays of scientific data, and basic tools to make it easy to use and organize complex data. Larch has been primarily developed for dealing with x-ray spectroscopic and scattering data, especially the kind of data collected at modern synchrotrons and x-ray sources. Larch is written in Python and relies heavily on the standard tools for scientific computing with Python (numpy, scipy, matplotlib, and h5py).
Lua ODE is bindings of OpenDE for the Lua language for Windoze, OS X, and Linux platforms.
a tool to perform symbolic math calculations
A Python IDE optimized for scripting and easy access to documentation.
Not a whole lab, just a small bench ! **Feel free to contact me via https://sourceforge.net/sendmessage.php?touser=1865508 if you want to take over this project** Mathbench is intended for the development of short scripts such as those daily used when doing research in applied mathematics and physics. Simple widgets and a strong plugin system make it useful and extensible. ANNOUCEMENT: Mathbench's purpose is still relevant and could also benefit from the latest improvements of the wxPython toolkit. However, for lack of time, it is not actively developped anymore. Feelf you want to take over this project, I'd be happy to let it evolve in other hands. I might ask a few questions on what you intend to do before giving up all control on it though :)
MyWorld is an open virtual reality and game engine. It is written and usable in C/C++. It has own abstract layers for Graphics and Physics. Actually we use Irrlicht for 3D-Rendering and GUI, and ODE for Physics. It is smart, powerful and easy to extend.
C Library for manipulating N-dimensional (ND) matrices and arrays.
N-Dimensional Matrix Library is a library for creating and manipulating N-dimensional matrices (arrays) in C. For more details, please see the README.md file.
.NET Tools and Libraries for the Advancement of the Sciences
A small, easy to use and easily extended constrained rigid body dynamics engine for use in gaming and lightweight simulation applications.
Performs neutron activation analysis calculations
It is important to signify the complexity and the detailed requirements of NAA measurement system automation and analysis. NAA process can be hypothetically divided and explained in three parts. First step is the sample preparation and logging. The second step is the exposure of the samples in a neutron field. The final step is the measurement of the radiation released from the irradiated samples and analysis for elemental quantification and qualification. Simple GUI should allow operators to perform routine data acquisition and analysis for standard reference material measurements. The GUI will be a web based application accessible from major operating systems. Allow each NAA calculation run to accommodate: Greater than or equal to 100 different standards in one analysis batch. Multiple standards with the same nuclides. Multiple standards that each has different nuclides. Allow the user to designate the irradiation time (end of irradiation) for each spectrum.
A project to develop open and free data exchanging interfaces and user interfaces (data readers, writers, plugins, converters, graphic user interfaces, etc) for open source CAE solvers and pre/postprocessors.
Follow us on www.openpiv.net and Github: http://github.com/openpiv
Orbit is currently a simple orbital simulator for simple circular orbits. It ultimately aims to be a general gravity machine, which will allow the instant creation of galaxies.
Oree - Optimum Real-time Estimation of Events of Interaction: real-time reconstruction of photon interaction events in Gamma Cameras. Optionally making use of a CUDA enable GPU, Oree achieves reconstruction of over 1M events/sec.
Parasol is a python framework in which mathematical models can be investigated parametrically. It enables easy optimization, sensitivity study, and visualization. Output is in plain text, HTML, and Microsoft Suite files (Excel, Word and PowerPoint).
Photonics is a photon tracking Monte Carlo package, which calculates photon flux and time distributions in a heterogeneous medium surrounding a light source. The propagation medium and detector and light sources are highly customizable.
A Python package extending NumPy and SciPy to allow specification of numbers and arrays with physical units.
Plouf is a set of algorithms that solve partial differential equations on sets of connected points. Emphasis is on fluid mechanics and plasma flows.
Pung96's Condor Utils
PyPhys is a set of physical quantity classes written in Python. The classes represent physical quantities (like length, pressure, energy, etc.) that can be assigned and extracted in many different units.
QC tests and patient doses from radiodiagnostic XRay equipment
This software performs various quality control tests for XRay devices used in radiography, mammography, fluoroscopy and CT such as: HVL/tube filtration, high voltage, exposure time, tube output, MTF calculations, film sensitometry, AEC devices and more. It also compute patient doses using an external program based on the GEANT4 simulation toolkit. This program is found here: https://sourceforge.net/projects/doseinhumanbody/ Read the "README" file for details. Source code and documentation included.
Quantum Chemistry packets calculation analiser. Gaussian, Molpro, Molcas, etc. Sample of creating MDI programs with Visual Studio.
Real Space Multigrid based electronic structure code.
News: V2.2.2 released on 10/14/2017 with minor bug fixes. News: V2.2 with performance enhancements, bug fixes and new features released on 06/26/2017. Sources are available with binaries to follow soon. News: V2.1 with many improvements released on 07/15/2016. Sources and binaries are available. RMG is a density functional theory (DFT) based electronic structure code that uses real space grids to represent wavefunctions, charge densities and ionic potentials. Designed for scaleability it has been run successfully on systems with thousands of nodes and hundreds of thousands of CPU cores. It is currently under active development and contributions are gladly accepted.
A raytracing framework for optical/non-optical physics simulations
This project has migrated to github: https://github.com/raysect