Solver
The ADVENTURECluster solver, Solver, uses the CGCG method
to rapidly solve linear and nonlinear analyses with more than 100 million degrees
of freedom, which has been quite difficult with other solvers.
The CGCG method accelerates convergence in large meshes by utilizing
solutions for coarse meshes (coarse grids).
In addition, having high parallel performance,
ADVENTURECluster works best multi-core and cluster environments.
In the contact analysis of large scale problems, the optimal trade-off between solution accuracy and
computation time is achieved by adopting appropriate convergence conditions.
For example, large engine assembly contact analysis can be performed 5 to 10 times faster than other
solvers with enough accuracy.
Because it is a purely original solver and evolves day by day listening to user's voices.
Standard function
- Static elasticity analysis
- Contact analysis
- Large deformation analysis
- Vibration analysis (eigenvalue, modal frequency response)
- Response spectrum analysis
- Random response analysis
Options
- Elastoplastic analysis
- Thermal conduction analysis (steady and transient)
- Dynamic analysis (implicit, explicit)
- Creep analysis
- Fatigue crack growth analysis
- Lead-free soldering analysis (RDNLK/rate-dependent nonlinear kinematic hardening law)
- Fracture mechanics parameters (stress intensity factor, J-integral)
- Fatigue analysis (high cycle, low cycle)
- Optimization (shape, topology)
Operating environment
For more information about the operating environment, please refer to this page.
Unique solver functions
Proprietary development of "ultra-large-scale, high-speed algorithms"
Adoption of CGCG method solver (Coarse Grid Based Conjugate Gradient)
- A unique solution method combining domain decomposition and iteration
- High parallel performance and low memory consumption
