⭐️⭐️⭐️⭐️ Obi Softbody – Published By Virtual Method

Obi is an advanced particle-based physics engine capable of simulating a wide range of deformable material behaviors.


Depends on the Burst, Jobs,

Keywords:

Physics, soft, Deformation, Simulation, softbody

Short Description:

Obi is an advanced particle-based physics engine capable of simulating a wide range of deformable material behaviors.


Depends on the Burst, Jobs,

Rating: ⭐️⭐️⭐️⭐️

Discount: None

Asset Title: Obi Softbody

Publisher: Virtual Method

Category: tools, physics

More Details about this asset:

Obi is an advanced particle-based physics engine capable of simulating a wide range of deformable material behaviors.


Depends on the Burst, Jobs,
Collections, and Mathematics packages, for compatibility with all platforms Burst can compile for. Without these packages, it can still run, but only in Windows, Mac,Linux, iOS and Android.


With Obi Softbody you can simulate complex elastoplastic softbodies composed of thousands of polygons, complete with collisions, self-collisions and rigid body interaction.


Softbodies are physically represented by a set of ellipsoidal particles held together by shape-matching constraints. This way, they can deform both elastically (restoring their rest shape) or plastically (absorbing some of the deformation into their rest shape).


Disclaimer: this is not a clay/mesh sculpting tool, and is not suitable as a starting point to make one. Does not support topological changes in the meshes such as cutting/tearing.


Links
Obi Website
Community and Support Forum

Features:

– Advanced oriented-particle XPBD solver.
– One-click softbody generation.
– Turn entire objects into softbodies, as well as specific parts of characters.
– Softbodies can deform plastically: part of the deformation is absorbed into their rest shape. They can also recover from plastic deformation.
– Unconditionally stable: the simulation will never blow up.
– Two-way rigid body interaction: softbodies will react to rigidbodies and vice-versa.
– Modular solver: don’t waste performance, only use the constraints your softbody needs.
– Per module adjustable solver iteration count.
– Works with all kinds of meshes, even non-manifold ones.
– Any part of a softbody can be attached to any collider/rigidbody, using rotating as well as fixed orientation links.
– Self and inter-collisions: softbodies can collide with themselves and other softbodies.
– Automatic camera culling: non-visible softbodies won’t consume resources.
– Easily extensible and modular architecture.

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