filmov
tv
PhysX 5.0 Announcement

Показать описание
PhysX 5.0 is just around the corner, and we wanted to provide a look at all the new features! In this version, available in 2020, we’ll be introducing support for a unified constrained particle simulation framework.
KEY FEATURES:
The Finite Element Model (FEM): an industry-standard simulation technique for deformable bodies. It is used extensively in the automotive and manufacturing industries to accurately simulate the structural strength of both rigid and soft assemblies.
Liquid simulations: Developers will be able to use discrete particle simulations to model granular flow. The implementation is scalable; robust-to-large time-steps can be used to stably simulate a wide range of liquids.
Arbitrary meshes: These can be simulated as cloth or rope using PhysX 5.0’s constrained particle model. These meshes can be coupled with volume preservation constraints with application-defined pressures to simulate inflatable shapes. The mesh-based simulations also provide a model to simulate aerodynamic drag and lift. The constraint model supports springs so it can be used to create mass-spring systems.
KEY FEATURES:
The Finite Element Model (FEM): an industry-standard simulation technique for deformable bodies. It is used extensively in the automotive and manufacturing industries to accurately simulate the structural strength of both rigid and soft assemblies.
Liquid simulations: Developers will be able to use discrete particle simulations to model granular flow. The implementation is scalable; robust-to-large time-steps can be used to stably simulate a wide range of liquids.
Arbitrary meshes: These can be simulated as cloth or rope using PhysX 5.0’s constrained particle model. These meshes can be coupled with volume preservation constraints with application-defined pressures to simulate inflatable shapes. The mesh-based simulations also provide a model to simulate aerodynamic drag and lift. The constraint model supports springs so it can be used to create mass-spring systems.