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Mark Duchaineau Data Science Group April 3, 2001 Multi-Resolution Techniques for Scientific Data Visualization.

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Presentation on theme: "Mark Duchaineau Data Science Group April 3, 2001 Multi-Resolution Techniques for Scientific Data Visualization."— Presentation transcript:

1 Mark Duchaineau Data Science Group April 3, 2001 Multi-Resolution Techniques for Scientific Data Visualization

2 CASCMAD 2 Our research results enabled post- processing of Bell Prize-winning run l LLNL-team won Gordon Bell Prize for largest Richtmyer-Meshkov run l sPPM simulation with 24 billion zones ran on 5832 processors of Blue Pacific machine at 1.18TF l 3D simulations show transition from coherent state to turbulence l LDRD-funded research improved post-processing —could not store 2.4TB of data without compression —LDRD wavelets research reduced space 2X & time 10x sPPM results: visualization of entropy toward end of shock tube simulation LLNL, IBM, University of Minnesota Image by D. Porter, U. Minn.

3 CASCMAD 3 Largest ever crack and dislocation simulations made possible by wavelets l 5120 ASCI White processors for largest run l Billion-atom 3D MD studies l 30X compression, from 25TB to under 1TB l 10% co-process overhead l With Farid Abraham/IBM

4 CASCMAD 4 The LLNL Terascale Browser enables interactive exploration of large data sets l Main capabilities —orthogonal slices —volume rendering —surfaces (iso, mat) —mesh on surface l Tunable performance —fast load/decompress —cached slices/surfaces —zoom in to full detail l Displays anywhere l Deployed via VIEWS Current data-set challenge: 2048 x 2048 x 1920 x 274

5 CASCMAD 5 Continuous material boundary extraction from volume fractions l Fractions treated as barycentric coordinates l Intersect in N-D simplex and re-project to 3-D Bonnell et al. Vis00 (summer student)

6 CASCMAD 6 Parallel compression allows full- resolution output and interaction with terabyte volume data l Problem: browse volume data with full space-time resolution —time+space knobs for orthoslices —space knobs for volume render l Algorithm: parallel, demand- driven orthoslice decompress —resample to regular grid —batch-parallel wavelet compress —event-parallel decompress —interactive client

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