Presentation is loading. Please wait.

Presentation is loading. Please wait.

Brain (Tech) NCRR Overview Magnetic Leadfields and Superquadric Glyphs.

Published byJennifer Williams Modified over 8 years ago

Similar presentations

Presentation on theme: "Brain (Tech) NCRR Overview Magnetic Leadfields and Superquadric Glyphs."— Presentation transcript:

1 Brain (Tech) NCRR Overview Magnetic Leadfields and Superquadric Glyphs

2 C.H.Wolters et al., talk at BWH in Boston, August 6, 2004 [Plonsey and Heppner, 1969] Maxwell equations Maxwell equations of electrodynamics MEG [Nolting, 1992]

3 C.H.Wolters et al., talk at BWH in Boston, August 6, 2004 MEG node-oriented lead field

4 C.H.Wolters et al., talk at BWH in Boston, August 6, 2004 MEG node-oriented lead field

5 C.H.Wolters et al., talk at BWH in Boston, August 6, 2004 MEG node-oriented lead field

6 C.H.Wolters et al., talk at BWH in Boston, August 6, 2004 MEG node-oriented lead field

7 C.H.Wolters et al., talk at BWH in Boston, August 6, 2004 Efficient and memory-economical setup

8 C.H.Wolters et al., talk at BWH in Boston, August 6, 2004 with condition number Convergence of the CG solver: FE discretization, meshsize: Strategy: MultiGrid (MG)-Preconditioning! Example: Efficient and memory-economical setup

9 C.H.Wolters et al., talk at BWH in Boston, August 6, 2004 Principle of the AMG: Smoother is given (Gauss-Seidel) Algebraic Multigrid Coarse grids and interpolation matrices are constructed from the entries of K –Diagonal entries nodes –Nondiagonal entries edges Coarse grids and interpolation matrices are constructed from the entries of K –Diagonal entries nodes –Nondiagonal entries edges Only one high resolution FE mesh! AMG-interpolation non-optimal: –Some few error components are not well reduced, i.e., some few eigenvalues of the AMG iteration matrix are close to 1 AMG-interpolation non-optimal: –Some few error components are not well reduced, i.e., some few eigenvalues of the AMG iteration matrix are close to 1 Problems: Strategy: AMG-CG!

10 C.H.Wolters et al., talk at BWH in Boston, August 6, 2004 SGI Origin2000, 195MHz, MIPS 10000 Single processor: Solver comparison

11 C.H.Wolters et al., talk at BWH in Boston, August 6, 2004 Multiple right-hand sides (RHS) saved as block-vector  memory access to matrix in matrix-vector op. once per block  Improved cache hit rate Multiple right-hand sides (RHS) saved as block-vector  memory access to matrix in matrix-vector op. once per block  Improved cache hit rate Treatment of multiple right-hand sides All matrix-vector operations in AMG-CG adapted to blockvectors: CG: Matrix-blockvector, block scalar products AMG: block smoother, block defect, block restriction/prolongation

12 C.H.Wolters et al., talk at BWH in Boston, August 6, 2004 Unknowns:147,287 MEG-channels: 147 3RHS-AMG-CG symIC(0)-CG Factor: 9 Mac G4, 3RHS- AMG-CG: 14min FE iterative solver approach for the lead field bases setup Aniso./Inhom. does not change performance

13 C.H.Wolters et al., talk at BWH in Boston, August 6, 2004 Efficiency of the lead field bases approach Head model: Tetrahedral FE, 147,287 nodes, 892,119 elements

14 C.H.Wolters et al., talk at BWH in Boston, August 6, 2004 Efficiency of the lead field bases approach Head model: Tetrahedral FE, 147,287 nodes, 892,119 elements Influence space: brain surface mesh, 2mm resolution, 9555 nodes

15 C.H.Wolters et al., talk at BWH in Boston, August 6, 2004 Efficiency of the lead field bases approach Head model: Tetrahedral FE, 147,287 nodes, 892,119 elements Influence space: brain surface mesh, 2mm resolution, 9555 nodes Number of FE forward solutions: EEG, 71 electrodes: 9555 * 3 = 28665 MEG, 147 channels: 9555 * 2 = 19110 (tangential constraint) Number of FE forward solutions: EEG, 71 electrodes: 9555 * 3 = 28665 MEG, 147 channels: 9555 * 2 = 19110 (tangential constraint) Dipole model: Blurred dipole [Buchner et al., 1997]

16 C.H.Wolters et al., talk at BWH in Boston, August 6, 2004 Distributing the memory for 1mm FE- modeling

17 C.H.Wolters et al., talk at BWH in Boston, August 6, 2004 ``Element-wise’’ partitioning into subdomains Parallel MultiRHS-AMG-CG: Communication is only necessary for: Smoother (  -Jacobi within interface nodes, Gauss-Seidel between blocks and for inner nodes) distribution of coarse grid solution inner products within PCG method Towards 1mm FE resolutions: Parallel AMG- CG on distributed memory computers

18 C.H.Wolters et al., talk at BWH in Boston, August 6, 2004 Solver time comparison: Unknowns:147.287 PC cluster, each processor 1.7GHz, 256KB cache Performance of parallel MultiRHS-AMG-CG

19 Brain (Tech) NCRR Superquadric Tensor Glyphs Ellipsoidal Glyphs No shape difference Visual ambiguity Barr ‘81

20 Brain (Tech) NCRR Superquadric Tensor Glyphs Eigenvalue differences imply assymetry Better visualization: Anisotropy Skewness

Download ppt "Brain (Tech) NCRR Overview Magnetic Leadfields and Superquadric Glyphs."

Similar presentations

A Discrete Adjoint-Based Approach for Optimization Problems on 3D Unstructured Meshes Dimitri J. Mavriplis Department of Mechanical Engineering University.

A Discrete Adjoint-Based Approach for Optimization Problems on 3D Unstructured Meshes Dimitri J. Mavriplis Department of Mechanical Engineering University.
Computer Science & Engineering Department University of California, San Diego SPICE Diego A Transistor Level Full System Simulator Chung-Kuan Cheng May.

Computer Science & Engineering Department University of California, San Diego SPICE Diego A Transistor Level Full System Simulator Chung-Kuan Cheng May.
1 Numerical Solvers for BVPs By Dong Xu State Key Lab of CAD&CG, ZJU.

1 Numerical Solvers for BVPs By Dong Xu State Key Lab of CAD&CG, ZJU.
CS 290H 7 November Introduction to multigrid methods

CS 290H 7 November Introduction to multigrid methods
CSCI-455/552 Introduction to High Performance Computing Lecture 26.

CSCI-455/552 Introduction to High Performance Computing Lecture 26.
MULTISCALE COMPUTATIONAL METHODS Achi Brandt The Weizmann Institute of Science UCLA www.wisdom.weizmann.ac.il/~achi.

MULTISCALE COMPUTATIONAL METHODS Achi Brandt The Weizmann Institute of Science UCLA
Numerical Algorithms ITCS 4/5145 Parallel Computing UNC-Charlotte, B. Wilkinson, 2009.

Numerical Algorithms ITCS 4/5145 Parallel Computing UNC-Charlotte, B. Wilkinson, 2009.
Parallelizing stencil computations Based on slides from David Culler, Jim Demmel, Bob Lucas, Horst Simon, Kathy Yelick, et al., UCB CS267.

Parallelizing stencil computations Based on slides from David Culler, Jim Demmel, Bob Lucas, Horst Simon, Kathy Yelick, et al., UCB CS267.
Efficient Storage and Processing of Adaptive Triangular Grids using Sierpinski Curves Csaba Attila Vigh Department of Informatics, TU München JASS 2006,

Efficient Storage and Processing of Adaptive Triangular Grids using Sierpinski Curves Csaba Attila Vigh Department of Informatics, TU München JASS 2006,
Numerical Algorithms Matrix multiplication

Numerical Algorithms Matrix multiplication
Algebraic MultiGrid. Algebraic MultiGrid – AMG (Brandt 1982)  General structure  Choose a subset of variables: the C-points such that every variable.

Algebraic MultiGrid. Algebraic MultiGrid – AMG (Brandt 1982)  General structure  Choose a subset of variables: the C-points such that every variable.
Numerical Algorithms • Matrix multiplication

Numerical Algorithms • Matrix multiplication
CS 584. Review n Systems of equations and finite element methods are related.

CS 584. Review n Systems of equations and finite element methods are related.
Influence of (pointwise) Gauss-Seidel relaxation on the error Poisson equation, uniform grid Error of initial guess Error after 5 relaxation Error after.

Influence of (pointwise) Gauss-Seidel relaxation on the error Poisson equation, uniform grid Error of initial guess Error after 5 relaxation Error after.
CSE351/ IT351 Modeling and Simulation

CSE351/ IT351 Modeling and Simulation
Sparse Matrix Algorithms CS 524 – High-Performance Computing.

Sparse Matrix Algorithms CS 524 – High-Performance Computing.
Sparse Matrix Solvers on the GPU: Conjugate Gradients and Multigrid Jeffrey Bolz, Ian Farmer, Eitan Grinspun, Peter Schröder Caltech ASCI Center.

Sparse Matrix Solvers on the GPU: Conjugate Gradients and Multigrid Jeffrey Bolz, Ian Farmer, Eitan Grinspun, Peter Schröder Caltech ASCI Center.
Steady Aeroelastic Computations to Predict the Flying Shape of Sails Sriram Antony Jameson Dept. of Aeronautics and Astronautics Stanford University First.

Steady Aeroelastic Computations to Predict the Flying Shape of Sails Sriram Antony Jameson Dept. of Aeronautics and Astronautics Stanford University First.
Scientific Visualization Data Modelling for Scientific Visualization CS 5630 / 6630 August 28, 2007.

Scientific Visualization Data Modelling for Scientific Visualization CS 5630 / 6630 August 28, 2007.
Multi-Cluster, Mixed-Mode Computational Modeling of Human Head Conductivity Adnan Salman 1, Sergei Turovets 1, Allen Malony 1, and Vasily Volkov 1 NeuroInformatics.

Multi-Cluster, Mixed-Mode Computational Modeling of Human Head Conductivity Adnan Salman 1, Sergei Turovets 1, Allen Malony 1, and Vasily Volkov 1 NeuroInformatics.

Similar presentations

Ads by Google