Libxc is library of exchange-correlation functionals for density-functional
theory. The aim is to provide a portable, well tested and reliable set of
exchange and correlation functionals that can be used by all the ETSF codes
and also other codes.
In libxc you can find different types of functionals: LDA, GGA, hybrids,
and mGGA (experimental).
Medit is an interactive mesh visualization software, developed by P. Frey
(University Pierre et Marie Curie).
It is intended to display computation results (in mechanics of the solids or
fluids, thermics, electromagnetism, etc.) on grids 2d (triangles and
quadrangles), 3d (tetrahedrons or hexahedrons) or surfaces (triangles and
quandrangles).
MINC (Medical Imaging NetCDF) is a medical imaging data format and an
associated set of tools and libraries.
FastHenry computes the frequency dependent self and mutual inductances and
resistances between conductors of complex shape. The algorithm used in
FastHenry is an acceleration of rge mesh formulation approach. The linear system
resulting from the mesh formulation is solved using a generalized minimal
residual algorithm with a fast multipole algorithm to efficiently compute the
iterates.
--------------------- Superconductivity Support -------------------------
This version of fasthenry has been modified to support superconducting
segments and ground planes by Stephen R. Whiteley of Whitleley Research Inc.
The analysis used is based on the London equations and the two-fluid
model. Both reactive and lossy components of the superconductor complex
conductivity are employed in obtaining the impedance matrix.
This is a Ruby interface to the NetCDF scientific IO library.
SIMLIB/C++ is the SIMulation LIBrary for C++ programming language. You can
create models directly in C++ language with the use of predefined simulation
tools from the library. SIMLIB allows object-oriented description of models
based on simulation abstractions. Current version allows a description of
continuous, discrete, combined, 2D/3D vector, and fuzzy models.
SIMLIB/C++ is developed at the Department of Computer Science and Engineering,
Faculty of Electrical Engineering and Computer Science, Brno University of
Technology since 1991.
cryptlib is a powerful security toolkit which allows even inexperienced
crypto programmers to easily add encryption and authentication services to
their software. The high-level interface provides anyone with the ability to
add strong security capabilities to an application in as little as half an
hour, without needing to know any of the low-level details which make the
encryption or authentication work. Because of this, cryptlib dramatically
reduces the cost involved in adding security to new or existing applications.
cryptlib provides a standardised interface to a number of popular encryption
algorithms, as well as providing a high-level interface which hides most of
the implementation details and provides an operating-system-independent
encoding method which makes it easy to transfer secured data from one operating
environment to another.
This little utility dumps MSRPC endpoint information from Windows
systems. Similar to the rpcdump program from Microsoft, but does not
need a DCE stack and so runs on Unixes. dcetest can be very useful
once inside a DMZ to fingerprint Windows machines on the network.
dcetest operates over TCP port 135. (Think of it as rpcinfo -p against
Windows)
fprint_demo is a simple GTK+ application to demonstrate and
test libfprint's capabilities. It can be used to enroll new finger prints
as well as verify and delete existing data sets.
Fprintd is a D-Bus daemon that offers libfprint functionality over
the D-Bus interprocess communication bus. By adding this daemon
layer above libfprint, we solve various problems related to multiple
applications simultaneously competing for fingerprint readers.
While it is not very nice to think of a daemon being necessary in
this scenario, fprintd will be launched by D-Bus through the
activation mechanism. This means it is launched only when needed,
and additionally it will shut itself down after a period of inactivity.
(Text copied from link below.)