For the simulation of fluids, first the user creates a fluid simulation system. The system is then tied to a geometry and material. The simulation system uses the simulation method, either Smoothed-Particle Hydrodynamics (SPH) or Lattice Boltzmann (LB). The simulation method allows the user to have accurate results, but it also takes up a lot of memory. There are several ways to reduce memory usage and optimize the simulation. The user can save the simulation result and reload it later, or the simulation parameters can be saved and loaded.
In addition, the simulation method can be changed, for example between SPH and LB. For the SPH method, the number of particles can be adjusted for better precision or simulation speed. For simulation speed, a grid can be used instead of particles. The grid should be less than 1/100 of the fluid simulation resolution. The grid can be adjusted for resolution and size. The grid can also be saved and loaded.
LB uses a lattice and a lattice velocity to calculate the fluid flow. In LB, the lattice is generated by the lattice coordinates and coordinates. The lattice velocity is determined by the difference between the lattice coordinates. The lattice velocity and fluid flow are calculated by the lattice. To calculate the fluid flow, the lattice equations of motion need to be solved. The lattice equations of motion are based on the lattice velocity. The lattice equations of motion determine the lattice velocity from the lattice coordinates. The lattice equations of motion are based on the input lattice velocity, the fluid properties, and a lattice density for the fluid.
SPH uses a mesh of particles as a base. In contrast to grid-based methods, the mesh is dynamic. Instead of moving the particles, the fluid flow is calculated on the mesh. The mesh is a grid of cells. Every cell has a volume and can have a density. In SPH, the mass of each cell is determined by the average density of all particles in the cell. The force exerted by each particle on the cell is based on the volume. In the case of a continuous fluid, the volume is the volume of a cell. The fluid flow is determined by the average velocity of all particles in a cell.
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