Sysload is a system for collecting machine loads across a large compute cluster or department. It handles machines going up and down, accumulates data over time, and can be setup to save data to a database for keeping track of overall CPU utilization on a cluster. It works independently of queueing systems, etc.
VMD (Visual Molecular Dynamics) is designed for the visualization and analysis of biological systems such as proteins, nucleic acids, lipid bilayer assemblies, etc. It may be used to view more general molecules, as VMD can read standard Protein Data Bank (PDB) files and display the contained structure. VMD provides a wide variety of methods for rendering and coloring a molecule: simple points and lines, CPK spheres and cylinders, licorice bonds, backbone tubes and ribbons, cartoon drawings, and others. VMD can be used to animate and analyze the trajectory of a molecular dynamics (MD) simulation. In particular, VMD can act as a graphical front end for an external MD program by displaying and animating a molecule undergoing simulation on a remote computer. VMD uses OpenGL and OpenGL Programmable Shading Language for high performance rendering of large structures.
Wat2ions is complementary to DelPhi, the renowned solver of the Poisson-Boltzmann equation. The electrostatic potential map pre-computed by DelPhi is used to replace a certain number of the water molecules of the bath, surrounding a solvated macromolecule, with ions. The potential on the oxygens of the water molecules is estimated using a 3D cubic spline interpolation of the pre-computed potential. The waters with the largest potential are replaced with chlorides, and the waters with the smallest potential, with sodii. No two ions are placed closer than a certain distance to each other. The coordinates of the macromolecule, the water bath (except the replaced waters), and the placed ions are output to a new PDB file.