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Transport Physics and UQ Marvin L. Adams Texas A&M University CRASH Annual Review Ann Arbor, MI October 28-29, 2010.

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Presentation on theme: "Transport Physics and UQ Marvin L. Adams Texas A&M University CRASH Annual Review Ann Arbor, MI October 28-29, 2010."— Presentation transcript:

1 Transport Physics and UQ Marvin L. Adams Texas A&M University CRASH Annual Review Ann Arbor, MI October 28-29, 2010

2 The integrated team has produced significant results this year. Collaboration has been fruitful and essential. o UQ is a tightly integrated UM/TAMU/SFU effort. o Theoretical understanding has advanced via collaboration (UM/TAMU). o Radiation has been an integrated UM/TAMU effort; this continues on more fronts as PDT & CRASH-MG mature. This talk describes recent TAMU contributions. o Includes UQ, Radiation, and theory. o Much involves collaboration with UM and/or SFU; the remainder is part of integrated CRASH plan. We are an integral part of the team.

3 Radiation effort is challenged by prohibition on coupling. Key task is assessment of diffusion model error. o diffusion model error ≈ [hi-res transport] – [hi-res diffusion] o Must translate no-hydro results to rad-hydro problem o Must address diffusion discretization error High-res transport tool is PDT (TAMU code). We employ a no-hydro “CRASH-like” test problem. We have developed a technique for using a transport code (e.g., PDT) to help assess diffusion model error.

4 CRASH-like test problem helps us assess model & discretization errors Constant energy deposition to electrons at “shock” Can assess effects of o discretization in energy, direction, space, and time o transport vs. diffusion Current focus is on ablation layer in plastic o See Morel’s talk 4 mm.3125 mm Be 0.008 g/cc Au 19.3 g/cc Xe 0.018 g/cc Xe 0.1 g/cc Xe 0.0059 g/cc plastic 1.43 g/cc electron energy source

5 PDT now solves CRASH-relevant problems. Continually adding verification tests (McClarren poster) Performance improvements have enabled solution of relevant problems o 40x serial speedup o 67% efficiency on 12k cores o Team effort (NE+CPSE at A&M) o see poster (“Massively Parallel...) There have been many other improvements o electron-energy sources, flexible initial and boundary conditions, CRASH opacities, better parallel I/O, improved visualization, diffusion preconditioner (debug phase), improved spatial discretizations, improved quadrature sets, etc.

6 PDT can produce high-resolution transport results for this problem. Example: o 50 energy groups, S18 quadrature (360 directions), 128 cells in first 0.5 micron of plastic (!), fully implicit solution o Weekend run, 1024 cores We are confident that we can assess discretization error and diffusion-model error for this problem o See Morel’s talk

7 We’ve developed and applied advanced BMARS to CRASH UQ Recent BMARS progress o Improved BMARS code, comparison with GP (see posters, papers, Stripling thesis) o Applied to H2D shock breakout (calibrated flux limiter, wall opacity, and Be EOS) o Built H1D emulator using BMARS and GP (paper accepted) o Contributors included Mallick, McClarren, Stripling, Ryu, Bingham, Holloway, and others from UM See poster on calibration of H2D parameters for shock breakout (Stripling, et al.)

8 We have developed and disseminated new theoretical results Theory of thin/thick radiating shocks o Physics of Plasmas, McClarren/Drake/Morel/Holloway Verification solutions o JQSRT, McClarren/Wohlbier o Also see McClarren poster Diffusion model error in radiating shock o JQSRT, Drake/McClarren o Also see Morel talk

9 We are improving discretization, iteration, parallel, and UQ methods Assessment of diffusion model and numerical errors: underway; high priority in coming year New STAPL: PDT transition has begun Positive spatial discretization: Maginot, et al. poster Long characteristics spatial discretization: Pandya, et al. poster Provably optimal sweep schedules: Adams, et al. poster Diffusion preconditioners for DFEM transport: in progress Uncertainties from uncertain opacities: dimension-reduction effort in progress

10 Next year should see further significant advances PDT will become a more capable CRASH tool o more efficient temperature iterations, including use of diffusion preconditioner o RZ geometry; space-time characteristics; DG diffusion o more flexible source and boundary conditions (for verification tests) o Must scale well on BG/L We will continue to advance UQ methods o include uncertainties in “x” inputs o improve emulator o assess model and discretization error o compensate for model error? We will continue theoretical developments o more verification problems, including analytic 3T solutions o track-based sweeps o analyses of iteration and time-differencing methods

11 Questions?

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