What is GASP?
GASP is a highly adaptable flow solver that effectively manages both structured and unstructured multi-block setups, adeptly solving the Reynolds Averaged Navier-Stokes (RANS) equations as well as the heat conduction equations relevant to solid materials. The solver employs a hierarchical-tree architecture for organization, which facilitates smooth pre- and post-processing all within a unified interface. It is capable of addressing both steady and unsteady three-dimensional RANS equations along with their various subsets, utilizing a multi-block grid topology that supports unstructured meshes made up of tetrahedra, hexahedra, prisms, and pyramids. Furthermore, GASP incorporates a portable extensible toolkit designed for scientific computations, significantly enhancing its adaptability. By decoupling turbulence and chemistry processes, the system achieves greater computational efficiency. It is compatible with a diverse range of parallel computing environments, including cluster configurations, and maintains a user-friendly approach to integrated domain decomposition. This robust architecture makes GASP an excellent choice for numerous applications in fluid dynamics, ensuring that users can tackle complex simulations with confidence. Additionally, its continual updates and support reflect a commitment to staying at the forefront of technological advancements in computational fluid dynamics.
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Company Facts
Company Name:
AeroSoft
Company Location:
United States
Company Website:
www.aerosoftinc.com/gasp_main.php
Product Details
Deployment
Windows
Training Options
Documentation Hub
Online Training
Support
Standard Support
Web-Based Support
Product Details
Target Company Sizes
Individual
1-10
11-50
51-200
201-500
501-1000
1001-5000
5001-10000
10001+
Target Organization Types
Mid Size Business
Small Business
Enterprise
Freelance
Nonprofit
Government
Startup
Supported Languages
English
GASP Categories and Features
Simulation Software
1D Simulation
3D Modeling
3D Simulation
Agent-Based Modeling
Continuous Modeling
Design Analysis
Direct Manipulation
Discrete Event Modeling
Dynamic Modeling
Graphical Modeling
Industry Specific Database
Monte Carlo Simulation
Motion Modeling
Presentation Tools
Stochastic Modeling
Turbulence Modeling