Computational Seismology at LLNL: A National Lab Perspective Arthur Rodgers Atmospheric, Earth and Environmental Sciences Department Lawrence Livermore.

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Computational Seismology at LLNL: A National Lab Perspective Arthur Rodgers Atmospheric, Earth and Environmental Sciences Department Lawrence Livermore National Laboratory Presentation for the CIG/IRIS Workshop on Computational Seismology Dolce Skamania Lodge, Stevenson WA June 8, 2005 UCRL-PRES

June 8, 2005Computational Seismology at LLNL2 Overview of LLNL Seismology LLNL is a DOE-funded applied science Lab –Working on problems of national security interest –Heavily driven by programmatic requirements Seismology Programs –Ground Based Nuclear Explosion Monitoring (GNEM) Program Largest program supporting seismology 15 Ph.D. seismologists –Hazards Mitigation Center Strong motion prediction & modeling –Southern Nevada Programs Yucca Mountain Program Test Site Readiness Livermore Computing – Some of the most powerful computers in the world

June 8, 2005Computational Seismology at LLNL3 Computational Seismology in the GNEM Program - 1 Forward calculations of high-frequency seismograms in 3D Earth models (Rodgers, Myers) –Focus on local (< 50 km) & regional (< 2000 km) distances Large-scale computing 3D model manipulation Estimation of 3D Earth models (Pasyanos) –Surface wave group velocity tomography –Markov Chain Monte Carlo Relies on multiple data sets Large-scale computing Waveform correlation methods (Harris) –Coherent signal processing

June 8, 2005Computational Seismology at LLNL4 Computational Seismology in the GNEM Program - 2 Many “conventional” applications –Ray tracing/travel times –Event location Single & multiple events –Travel time & surface wave tomography –Synthetic seismograms Reflectivity, WKBJ and normal mode –Regional phase amplitude measurements P/S discriminants Coda magnitudes –Surface wave dispersion –Waveform inversion Crustal/Lithospheric structure estimation Source parameter estimation –Receiver functions –Hydroacoustic and coupled seismic/hydro

June 8, 2005Computational Seismology at LLNL5 Scientific Information Management GNEM Research Database –ORACLE DB, SQL/Plus, various tools Contains … –60 Terabytes –~ 60,000,000 waveforms from 10,000’s stations –Provides data in “research ready” form Unifies data-processing efforts –Resolves format issues –Measurement tools read from and written to DB Regional phase amplitude processing Phase picking and event location GNEM LINUX Cluster –10 nodes (20 CPUs), soon to be 25 nodes

June 8, 2005Computational Seismology at LLNL6 Livermore Computing MCR, 11 TFlop/sec (#19/500) 1152 nodes, 2304 CPUs Thunder, 22 Tflop/sec (#5/500) 1024 nodes, 4096 CPUs Access to LC is open for LLNL researchers: allocations are prioritized. Access for non-LLNL researchers is possible, but difficult. Getting allocation with sufficient cycles is key. Visualization also supported. BlueGene/L, 70 Tflops/s (#1/500) nodes, CPUs

June 8, 2005Computational Seismology at LLNL7 LLNL Goals Short-Term –Facilitate the use of “conventional” tools Synthetic seismograms Waveform inversion –Expand the use of 3D travel time and waveform codes Facilitate the specification of models Store metadata and output for runs Long-Term –Make use of powerful computers for LLNL programmatic priorities –Develop and enhance parallelized applications 3D travel time and waveform calculations Grand-scale high-resolution stochastic tomography Parallel signal processing Data mining

June 8, 2005Computational Seismology at LLNL8 LLNL Opportunities Possibilities exist for collaboration with LLNL via CIG –Must serve mission and be great science (need Lab “by-in”) –LLNL has much to offer Vehicles for collaboration –Joint Proposals DOE/AFRL NEM BAA process –Nuclear Explosion monitoring focus –Current round due July 26 DOE/Office of Science –Basic science and computational focus –Typically due in January –Visiting Scientist Sabbatical Leave Participating Guest status Development of a new elastic finite difference code –Possible for CIG to guide development

June 8, 2005Computational Seismology at LLNL9 Thank you

June 8, 2005Computational Seismology at LLNL10 Other Efforts Strong Motion Efforts –Bay Area fault ruptures (Larsen, Rodgers) Hayward Fault 1906 San Francisco Earthquake Project –Southern Nevada (Larsen, Hutchings, Foxall, Rodgers) Yucca Mountain Program Test Site Readiness Efforts rely on 3D model(s) and multiple runs on large-scale computers –Theoretical and Related Efforts Poroelasticity (Berryman) Hydrodynamic Modeling –Shock physics –Discrete element method