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Dissipative Particle Dynamics
At the heart of the
software is a server-client parallel implementation of the Dissipative Particle Dynamics (DPD) technique.
Particles are physically moved through space by
partical-pair interaction forces using an iterative algorithm, where each iteration
represents a small but finite period of time.
The DPD technique is
a recent development from conventional Molecular Dynamics (MD),
a very common technique for modeling atomic-scale phenomena. DPD
modifies the core interactions of Molecular Dynamics to allow it
to be used with meso-scale systems over much larger time frames. The DPD technique has been proven to adhere to the
fundamental Navier-Stokes equations which describe how liquids behave in the
real world.
Our
Fluidix test lab improved their
final simulation turnaround time from six months to six days.
Our server-client
parallel simulation ensures that you will spend more time doing
research and iteratively trying out new ideas, rather than
waiting for results.
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