Physics-based fluid simulation has played an increasingly important role in the computer
graphics community. Recent methods in this area have greatly improved the generation of …

We introduce vertex block descent, a block coordinate descent solution for the variational
form of implicit Euler through vertex-level Gauss-Seidel iterations. It operates with local …

In this paper we present a novel Smoothed Particle Hydrodynamics (SPH) method for the
efficient and stable simulation of incompressible fluids. The most efficient SPH-based …

This paper introduces a new particle-based approach to incompressible fluid simulation. We
depart from previous Lagrangian methods by considering fluid particles no longer purely as …

Snow is a complex material. It resists elastic normal and shear deformations, while some
deformations are plastic. Snow can deform and break. It can be significantly compressed …

In this paper, we present a novel physically consistent implicit solver for the simulation of
highly viscous fluids using the Smoothed Particle Hydrodynamics (SPH) formalism. Our …

Simulating viscoelastic polymers and polymeric fluids requires a robust and accurate
capture of elasticity and viscosity. The computation is known to become very challenging …

We present a new octree-based neighborhood search method for SPH simulation. A
speedup of up to 1.9 x is observed in comparison to state-of-the-art methods which rely on …

We present a robust and efficient method for simulating Lagrangian solid-fluid coupling
based on a new operator splitting strategy. We use variational formulations to approximate …

We present a novel implicit formulation for highly viscous fluids simulated with Smoothed
Particle Hydrodynamics SPH. Compared to explicit methods, our formulation is significantly …