240 likes | 292 Views
Tools for Multi-Physics Simulation. Hans Petter Langtangen. Simula Research Laboratory Oslo, Norway Department of Informatics, University of Oslo. Present Simula projects. History of the group. Future ideas/visions. multi-physics. PDE components. Python. F77. C++. Python.
E N D
Tools for Multi-Physics Simulation Hans Petter Langtangen Simula Research Laboratory Oslo, Norway Department of Informatics, University of Oslo
Present Simula projects History of the group Future ideas/visions multi-physics PDE components Python F77 C++ Python
Structural mechanics Porous media flow Water waves Aero- dynamics Stochastic PDEs Incompressible flow Heat transfer Other PDE applications 1990s: Diffpack & applications I/O FDM Grid FEM Field Matrix Vector Ax=b
BiCGStab MG CG Finite element grid Finite element field Linear equations and solvers A Typical Diffpack PDE Solver Class P1 Grid* grid; Field* p; LinEqAdm* Axb; integrands (…); K(…); Evaluate integrands in weak form Evaluate variable coefficient
Diffpack distribution • 1995 & 1997: Open source versions • 1997-2003: Numerical Objects • 2003-?: inuTech • Free test version (size limit) • Simula collaborators have free access • Customers include Cornell, Stanford, LLNL, Intel, NASA, Shell, IFP, DaimlerCrysler, Mitsubishi, ... • >200 customers in >30 countries
Some Diffpack features • Linear solvers and preconditioners • Grids and scalar/vector fields • Biased towards FEM, support for FDM • Mixed FEM, block systems • Systems of PDEs • Stochastic PDEs • Multilevel solution • Adaptive mesh (h-adaptivity) • Parallel computing • Problem solving environment
Some Diffpack applications • Heat and phase transfer • Viscous laminar and turbulent flow • Thermo-elastic-plastic deformation • Electromagnetics • Chemical reactors • Design of quantum computers • Stochastic porous media flow • Electrical activity in the heart • Tsunami simulation • ...
Simula is a new government lab for advanced ICT research High quality research Educate graduate university students Prepare for research- based business Startup Jan 1, 2001
Research groups were selected by competition 11 Applicants Software Engineering Scientific Computing Networks and Distributed Systems
Simula emphasizes large projects Inverse problems Computational geosciences Software for PDEs Cardiac Computing
231 million elements 39 million unknowns 252 million elements 42 million unknowns 400-500 millions of ODEs This is a computationally intensive problem
Computational geosciences • Goal: find more oil! • Compute geological evolution • Multi-resolution visualization • PDEs for deposition/erosion • Flow, heat, deformation • Software integration • Advanced tools for tracking geological events
The Storegga Slide (8150 yrsBP) Headwall 300 km Run-out 800 km Volume 5.600 km3 Area 34.000 km2
The Mjølnir event was 1000 times stronger than the Dec 26, 2004 event!
The Mjølnir tsunami consisted of a series of individual waves
The Silent Wings soaring simulator uses advanced terrain visualization
SWIG GiNaC Python C++/F77 SWIG/F2PY FAMMS