A fully developed set of DNA sequence assembly (Gap4 and Gap5), editing and analysis tools (Spin) for Unix, Linux, MacOSX and MS Windows.
Simple But Powerful VIM Based Build Environment With Flex & Bison
The project's main purpose is to combine the existing open source tools into a powerful development environment. This is not just a Visual Studio like development environment, but also a Notepad upgrade, which can also be used to perform common tasks in daily use.
Open Source home for the Virtual Cell platform (VCell). See http://vcell.org/ for details.
Mathematics software platform and script language
Hmd is a program for mathematical computations. It runs as an interactive environment as well as a script interpreter. Intended as a tool for numerical, applied mathematics, there is a basic engine for solving finite element models.
Quantum transport code based on Gaussian03/09
Atomistic NanoTransport (ANT) comprises a series of codes designed to compute electronic quantum transport with a broad range of applicability in nanoelectronics. ANT.Gaussian (or ANT.G for brevity) relies on the popular quantum chemistry code GAUSSIAN03/09 code with which interfaces in a seamless manner. Straightforwad use of ANT.G include the computation of the zero-bias conductance (or, alternatively, the electrical current under an applied bias voltage) of a variety of nanoscale systems such as molecular bridges or simply metallic atomic contacts as those created with scanning tunneling microscope or break junction techniques. The use of ANT.G may also be naturally extended to the computation of scanning tunneling spectroscopy and the simulation of scanning tunneling and electrostatic force microscopy.
An extension of Code_Aster to add multilingual support to it's varying GUI interfaces included in the default package. Eventually, we also intend to extend Code_Aster by contributing command file templates and extending the analysis abilities.
Eiger is an electromagnetic software for frequency domain analysis. It consists of physics models for 2D and 3D electromagnetic scattering, radiation, and penetration problems. It contains Green's functions for periodic and layer medium.
An analytical generalized Born model to calculate electrostatic solvation energy that accurately reproduces the linearized Poisson-Boltzmann equation. More about this method is explained in J. Phys. Chem. B, 111, 3055-3061 (2007).
This code performs the finite volume numerical simulation of a general integrate and fire neuron model driven by a stochastic direct current input.
Stress intensity factor (SIF) calculation from crack tip displacements
The code implements Muskhelishvili's complex function approach to calculate 2D stress intensity factors (modes I+II) from crack tip displacement fields. Surface displacements can be used with a plane stress elastic model. The code uses power/Fourier series expansion and a conformal mapping of an ellipse onto a circle.