Revolutionary high-resolution industrial simulation software
· Innovative numerical algorithms
· Innovative fully asynchronous computing model
TRIAL
EN
Multiphysics + all-round high-confidence calculations
Based on the advantages of unique numerical algorithms and innovative computing models, DIMAXER software can increase the scale of the current mainstream simulation from tens of millions of solution points to billions to tens of billions of dollars with a computing cost of less than 2~3 orders of magnitude lower than that of traditional imported software, and significantly improve the accuracy and computing power of multiphysics simulation. From simplified and empirical model-dependent component simulations to large-scale multi-spatiotemporal system-level simulations without simplification and modulation. From static simulation to full-process dynamic simulation; From a single simulation tool to a design tool, an engineering rapid response tool and a rapid damage assessment tool, it reshapes the use and application level of industrial simulation software in the whole life cycle of modern industrial products, and accelerates the transformation of industrial digital intelligence.
High-precision
DIMAXER unstructured hybrid meshes can achieve arbitrary high-order precision, polynomials do not depend on inter-mesh templates, and space-time is conserved.
High efficiency
DIMAXER 's unique 'time-accurate local time step' propulsion method enables the unsteady solution of large-scale multi-scale problems to be more than 10~100 times faster than traditional algorithms.
Low cost
DIMAXER consumer-grade GPU computing, the comprehensive cost can be reduced by 100~1000 times.
The simulation resolution
is increased by two orders of magnitude
DIMAXER high-fidelity and high-efficiency numerical simulation
Low-cost 1 billion+ solution point simulation
Tens of billions of solution point system-level simulation capabilities
DIMAXER high-fidelity and high-efficiency numerical simulation
Low-cost 1 billion+ solution point simulation
Tens of billions of solution point system-level simulation capabilities
Conventional CFD resolution
Steady-state, dependent on models and empirical parameters
DIMAXER high-definition fluid simulation resolution
It is non-steady, model-independent, and has few empirical parameters
Preprocessing: Geometry&Mesh
- Geometry processing: CAD import and STL surface mesh processing
- Overlap mesh generation: near-wall boundary layer mesh + tree mesh; Externally import meshes
- Heavy topology swept mesh: Flexible topology replaces traditional structured meshes
- Immersion Boundary: Fast System-Level Simulation; Local support for special geometries (zero contact, etc.)
See details 
Multi-physics Solver
- Fluid & Heat Transfer: The STE-KEP-FR algorithm only solves the large eddy simulation LES and DNS, and does not count the steady-state and does not add turbulence models
- Structure & Heat Transfer & Electromagnetic Simulation & Other Physics: Continuous Finite Element Solving
- Multi-field coupling: Strong Fluid-Thermal Coupling & Weak Coupling of Flow Field with Other Physics at a given frequency
- Dynamic Problem Solving: Mesh Deformation + Mesh Motion (ALE) + Dynamic Overlapping Meshes
See details
Post-processing & data analysis
- Conventional post-processing: cloud map + statistics + formula input, etc
- Noise post-processing: frequency analysis of wall measurement points and selection of solid wall and space sound sources for FWH far-field acoustic radiation calculation, etc
- In-Situ & Customizable Post-Processing: Probe Output • Big Data Processing & Analytics: Real-Time Reconstruction + Machine Learning
See details
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Guangdong ICP No. 2023060583-1
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